A GUIDE FOR TRANSFERRING TO THE

UNIVERSITY OF UTAH College of Engineering 2016-2017

TABLE OF CONTENTS 1. General Information a. Intro b. How to Use This Guide c. Applying to the U d. The U’s Admissions Criteria for Transfer Students e. How Transfer Credit is Evaluated f. Where You Can Go For Further Assistance g. The Transfer Center h. Still Have Questions? 2. General Information Table for all University of Utah Undergraduate Degrees 3. Majors in College of Engineering- Each major contain the following schools: Brigham Young University, BYU-Idaho, Dixie State University, LDS Business College, Salt Lake Community College, Snow College, Southern Utah University, Utah State University/Utah State University Eastern, Utah Valley University, Weber State University, and Westminster College. a. b. c. d. e. f. g. h.

Biomedical Engineering Chemical Engineering Civil & Environmental Engineering Computer Engineering Computer Science Electrical Engineering Materials Science & Engineering Mechanical Engineering

GETTING READY FOR THE U A GUIDE FOR TRANSFERRING TO THE UNIVERSITY OF UTAH If well planned, your academic course work at another institution will be a valuable contribution toward earning a bachelor’s degree at the University of Utah. Many courses offered from other schools will fulfill requirements in the U’s General Education program- the basics required of all University of Utah students seeking a bachelor degree. You can even begin meeting requirements for some departmental majors while still a student at another institution. The purpose of this guide is to inform you of the courses offered at other Utah institutions of higher education that meet specific requirements in various programs of study at the University of Utah. Preparing yourself now can save you both time and money. How to Use This Guide Many departments at the U have made agreements with the other schools in Utah. This means that the faculty at the U has agreed with the faculty at the other institutions that specific courses completed there will apply toward certain majors at the U. Therefore, for example, if you are a student at SLCC and are planning to transfer to the U, you will be able to take SLCC courses that will directly transfer into your proposed major at the University of Utah. Applying to the U You can apply online at http://admissions.utah.edu. You may obtain an application by calling, writing or visiting the University’s Office of Admissions Office of Admissions 201 South 1460 East, Rm 250S Salt Lake City, UT 84112-9057 (801) 581-8761

The annual deadlines for admission are: Fall Semester……April 1

Spring Semester……November 1

Summer Session I…..March 15

Summer Session II…..March 15

(Financial aid, scholarship, and many departmental application deadlines may be earlier. Contact the appropriate office for more information.) An application for admission, a processing fee, and supporting credentials must be filed with the Office of Admissions by the published deadlines. Applications received after deadlines are subject to the late handling fee. Official transcripts from all colleges or universities attended must be submitted to the Office of Admissions in order for your application to be evaluated. Transcripts must be mailed directly to the University Office of Admissions from the records office of all colleges or universities previously attended to be considered official. Applicants transferring fewer than 30 semester hours or 45 quarter hours will also need to submit an official copy of their high school transcript and ACT or SAT results. These students must meet the University’s requirements as outlined in the General Catalog for both freshmen and transfer applicants.

The U’s Admission Criteria for Transfer Students Applicants with 30 semester hours or more of transferable work and a cumulative college-level GPA of 2.6* 1 or higher are likely to be admitted to the U. Those with a cumulative GPA below 2.6 will likely be denied. In addition, your last semester’s GPA must be above a 2.0. All transferable courses attempted and not withdrawn from are figured into your GPA. The Credits and Admissions Committee will review additional information for applicants requesting special consideration. You will be notified by mail of your admission status within 2-6 weeks after your application and all credentials have been received in our office. If you are denied admission, tou will received a letter with some recommended alternatives. A process of appeal is available; contact the Office of Admissions for more information.

How Transfer Credit Is Evaluated Once you are admitted to the U, we will inform you of the total number of transfer credits accepted and designate the courses accepted toward completion of General Education requirements on your Summary of Transfer Credit. The summary will also notify you of your cumulative transfer GPA. Transfer courses are not computed into the University of Utah’s GPA. Your University of Utah GPA will begin once you start taking classes at the U.

In state schools: The University of Utah will accept courses completed at accredited Utah colleges or universities with a course number of at least 1000 for state institutions and will generally accept courses with a course number of at least 100 for private schools (BYU, LDSBC, Westminster College) if you receive at least a Dgrade. Students who have an associate of arts or associate of science degree or have completed the general education program at another Utah state-supported institution of higher education are considered to have satisfied the University of Utah’s general education requirements. Courses transferred from private Utah colleges are evaluated on a course-by-course basis of whether they are (a) transferable (can be used toward the 122 semester hours required to graduate) and (b) equivalent to courses offered at the University of Utah and, thus, can be used to qualify for admissions into a selective major. Out of state schools: Transfer credit earned in residence at other accredited collegiate institutions is normally accepted if the work is similar in nature to programs offered at the U, and if grades of D- or better have been earned in credited courses. Courses transferred from out-of-state schools are evaluated on the basis of whether they are (a) transferable (can be used toward the 122 semester hours required to graduate) and (b) equivalent to courses offered at the University of Utah and, thus, can be used to qualify for admission into a selective major. If you have attended schools not addressed in this guide and have questions regarding the transferability of those courses, please call the Transfer Office of Admissions at (801) 581-7286. For questions regarding the evaluation of AP, CLEP, and Challenge Credit refer to the University of Utah’s General Catalog or contact the Transfer Office of Admissions/ It is important to realize that admission to the University of Utah does not guarantee admission into your intended major. Many departments require a separate application process and evaluate your course work for additional requirements.

Where You Can Go For Further Assistance There are many important offices you will become acquainted with while attending the U. Several of these, including University College and Career Services, will offer immediate benefits to you. Orientation and New Student Programs office holds Orientation programs ever semester before classes begin. If you are admitted by the

1

Subject to change at any time

application deadline, you will receive an invitation to attend one of these very informative programs. Advisors at the Orientation programs will: • • • • •

Outline the University wide graduation requirements, including the General Education program Discuss class selection and program planning Assist students that have not yet chosen a major Familiarize you with the campus, student support services, and the many opportunities for student involvement Offer registration on the day you attend an oritentation session for better course selection in your first semester at the University of Utah

Orientation may be one of the most important programs you will attend as a new University of Utah student. You must attend orientation to receive priority registration. All new University of Utah students pay a one-time matriculation fee. This $70 fee covers the cost of the new student orientation, AP/CLEP/IB credit evaluations, writing placement ezams, graduation evaluations, and registration with the Career Services Center. The University’s Career Services includes a nationally recognized career library with resources for extensive career exploration. If you have questions regarding the demand for graduates in your field, you will find valuable information located in the career library.

THE TRANSFER CENTER At University College Advising The Transfer Center is a resource to help students who are interested in transferring to the University of Utah. Our services begin with advisor visits to Utah community colleges and continue with advising and resources to help you once you are admitted and attending the U. We can help you: • • • • •

Select the best classes/programs at your home school to prepare for transfer Understand the application process Understand how transfer credits will be accepted at the U Select and plan for a U of U major Resolve questions and problems in your first semesters at the U

You can set up an appointment to see a transfer advisor on the U of U campus by calling (801) 581-8146 or visit our web site at www.transfer.utah.edu and see a schedule of our advisor visits to your school. Let us help you make a smooth transition to the University of Utah!

Still Have Questions? For clarification of information contained in this guide, please contact the Transfer Articulation Coordinator in the University of Utah’s Office of Admissions at (801) 581-8761. You may also contact individual offices at the U for specific questions. The Getting Ready Guide is not an articulation guide. The Getting Ready Guide is created by the Office of Admissions and departments from the University of Utah to show how courses may transfer from other schools to complete major requirements. This guide is major specific. Courses that satisfy requirements for a particular major may not clear requirements for a different major. If you are interested in viewing articulation agreements made between schools, please visit the Utah System of Higher Education Transfer Guide.

GENERAL INFORMATION FOR ALL UNIVERSITY OF UTAH UNDERGRADUATE DEGREES

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U) 50% of all Business classes must be taken at the U. 18 semester hrs of Anthropology must be taken at the U.

ACCOUNTING

BU

YES

NO

C-

NO

NO

NO

84 semester hrs

ANTHROPOLOGY

SB

B.A., B.S. Honors B.A., B.S.

NO

YES

C; Maintain a minimum 2.5 GPA in Anthropology Courses

NO

NO

ARCHITECTURAL STUDIES

AR

B.S., HONORS

YES

NO

3.0 for admission

NO

YES

NO

Minimum 34 semester hrs in Anthropology courses; Minimum 12 semester hrs in Allied Credit courses 80 semester hrs

ART

FA

B.F.A., B.F.A. Honors

YES

C-; (Art Teaching majors must maintain 3.0 GPA in art courses)

NO

YES

YES

ART HISTORY

FA

B.A., B.A. Honors

NO

Ceramics Interdisciplin ary minor in Arts: Technology YES

C-

NO

YES

YES

75-83 semester hrs 6-12 semester hrs in Art History (# of hours varies with emphasis) 36 semester hrs

ASIAN STUDIES

HU

B.A.

NO

YES

C-

NO

NO

YES

39 semester hrs

50% of all Asian Studies classes must be taken at the U.

ATHLETIC TRAINING

HE

B.S.

YES

NO

C-

NO

NO

YES

65 semester hours

University of Utah Policy

ATMOSPHERIC SCIENCES

MI

B.S.

NO

YES

C-

University of Utah Policy

BALLET

FA

B.F.A.

YES

NO

C-

NO

NO

YES

BIOLOGY

SC

B.A., B.S. Honors, Biol BA Teaching, Biol BS Teaching

NO

NO

C-; Minimum grade of C- in all required ancillary science courses and in all required Biology courses.

NO

NO

YES

Minimum 45 sem hours in Atmospheric Sci courses; 50 sem hours in Ancillary Sci courses 80 semester hours (# of hours varies) 36 semester hrs in Biology courses 30 semester hrs in Ancillary Science courses. 72 semester hrs in science total.

Full professional program must be taken at the U; may petition for exemptions. 40 semester hrs in Art courses must be taken at the U.

30 semester hrs of Art History must be taken at the U.

University of Utah Policy 21 semester hrs of Biology , 2 labs (3 lab units) must be taken at the U.

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

BIOMEDICAL ENGINEERING

EN

B.S.

YES

YES

C; Maintain minimum university cumulative GPA of 3.0

NO

YES

YES

Minimum 126semester hours (including University general requirements)

BUSINESS ADMINISTRATION CHEMICAL ENGINEERING

BU

B.A., B.S., Honors B.S.

YES

NO

C-

NO

NO

NO

75 semester hours

YES

NO

NO

NO

YES

127 semester hours (including University general requirements)

CHEMISTRY

SC

B.A., B.S., H.B.A., H.B.S.

NO

YES

Minimum 2.0 cumulative GPA in required Chemical Engineering courses C- and minimum 2.0 GPA on all courses taken in College of Science.

CHINESE

HU

B.A.

NO

YES

C

CIVIL ENGINEERING

EN

B.S.

YES

NO

NO

CLASSICS

HU

B.A.

NO

YES

Minimum 2.5 GPA in all Civil Engineering subjects. C

COMMUNICATION SCIENCES & DISORDERS

HE

B.A., B.S. H.B.A., H.B.S.

YES

NO

C-; Must maintain 3.0 GPA in major courses.

YES

COMMUNICATION

HU

B.A., B.S.

YES

YES

C

COMPARATIVE LITERARY & CULTURAL STUDIES (CLCS) COMPUTER ENGINEERING

HU

B.A.

NO

YES

C

NO

EN

B.S.

YES

NO

C-; Must maintain a 2.5 cumulative GPA and in Computer Engineering courses, with no grade less than a C-

YES

EN

Professional major: 75 semester hours Interdisciplinary major: Minimum 72 semester hours 34 upper division semester hours NO

NO

YES

YES

127.5 semester hours (including University general requirements) 31 semester hours

Major courses + 9 semester hours Allied Credit

Minimum of 14 Comm courses

NO

iv

NO

YES

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U) Must take BIOEN 1010, 1020, and 2100 at the U and upper division classes.

50% of all Business classes must be taken at the U. Must take CH EN 4903, 4905, and 5253 at the U.

Minimum of 12 upper division semester hours of Chemistry must be taken at the U. 15 upper-division semester hours of Chinese must be taken at the U. University of Utah Policy

15 semester hours of the Classics must be taken at the U. Minimum of 5 Communication Sciences & Disorders courses at the 4000-level or higher must be taken at the U. Minimum 10 Communication courses must be taken at the U.

34 semester hours

15 semester hours of CLCS must be taken at the U.

124.5 semester hours (including University general requirements)

University of Utah Policy

COMPUTER SCIENCE

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

EN

B.S.

YES

YES

C-; Full Major acceptance based on available space & required minimum 3.0 entrance GPA. Must maintain a 2.5 GPA in CS classes & cumulative. C-; Must maintain a 2.0 GPA in Economics course work.

YES

C- or better in major requirements. Must maintain a 2.5 cum GPA at U, also 2.5 technical GPA. Technical GPA is all ECE and CS courses. C

YES

ECONOMICS

SB

B.A., B.S.

NO

YES

ELECTRICAL ENGINEERING

EN

B.S.

YES

NO

ELEMENTARY EDUCATION

ED

B.A., B.S

YES

NO

ENGLISH

HU

B.A.

NO

YES

C-; B- for Teaching Major

ENTREPRENEURSHIP

BU

YES

YES

ENVIRONMENTAL & SUSTAINABILITY STUDIES

SB

B.S., Honors B.A., B.S.

NO

ETHNIC STUDIES

SB

B.A, B.S, Honors

NO

EXERCISE & SPORT SCIENCE

HE

B.S.

NO

vii

v

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U)

NO

YES

CS- 113 semester hours CS-EAE- 126 semester hours

10 upper division CS courses taken at the U.

(includes University general requirements) NO

NO

vi

NO

YES

36 semester hours in Economics courses 12 semester hours in upper-division Allied Courses 125.5 semester hours (including University general requirements)

18 semester hours in Economics courses must be taken at the U.

Approximately 112 semester hours

University of Utah Policy

Minimum of 8 English courses must be taken at the U. 50% of all Business classes must be taken at the U. 25 semester hours

NO

Take within 5 years NO

YES

36 semester hours in English courses

C-

NO

NO

YES

75 semester hours

YES

C-; Must maintain a 2.25 cumulative GPA.

NO

NO

YES (ENVST 2000 & 2100)

47 semester hours

YES

C- or better in major requirements

NO

NO

YES (coaching – Education majors only)

C-; Those accepted to the Athletic Training Major and the Physical Education Teaching Education

NO

NO

33 semester hours; 6 semester hours at 2000 level and 27 semester hours at 3000 level or higher NO

University of Utah Policy

18 semester hours in Ethnic Studies Studies courses must be taken at the U

University of Utah policy

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U)

NO

NO

NO

18 semester hours in CCS must be taken at the U.

NO

NO

NO

35 semester hours 12 required allied hours 32 semester hours 12 required allied hours

41 semester hours 12 required allied hours

University of Utah Policy

81 semester hours

50% of all Business classes must be taken at the U.

FCS: CONSUMER & COMMUNITY STUDIES

SB

B.A., B.S.

NO

YES

major need to complete work with a C. C-

FCS: HUMAN DEVELOPMENT & FAMILY STUDIES

SB

B.A., B.S.

NO

YES

C-

FILM & MEDIA ARTS

FA

B.A.

NO

NO

C

FINANCE

BU

B.A., B.S., HONORS

YES

NO

C-

FRENCH

HU

B.A.

NO

YES

C

37 semester hours

15 semester hours of French must be taken at the U.

GENDER STUDIES

SB

B.A., B.S.

NO

YES

C

30 semester hours

GEOGRAPHY

SB

B.A., B.S.

NO

YES

C-

44 semester hours 12 required allied hours

18 semester hours in Gender Studies courses must be taken at the U. 18 semester hours in Geography must be taken at the U.

NO

NO

NO

10 yrs

YES

YES GEOG 3020/ 3040 3270/3400

GEOSCIENCE

MI

B.S.

NO

GEOLOGICAL ENGINEERING

MI

B.S.

NO

YES Earth Science NO

GERMAN

HU

B.A.

NO

YES

HEALTH PROMOTION & EDUCATION

HE

B.S.

YES

YES (teaching) Health

HEALTH, SOCIETY & POLICY

SB

B.A., B.S.

NO

NO

C-; Must maintain a 2.25 cumulative GPA. C-; Must maintain a 2.25 cumulative GPA. C

Must pass 4 prerequisite courses with a C- or higher before declaring major. C-

18 semester hours in HDFS must be taken at the U.

NO

NO

YES

81 semester hours

University of Utah Policy

NO

NO

YES

112-113 semester hours

University of Utah Policy

34 semester hours.

15 semester hours of German must be taken at the U. University of Utah Policy

Take within 10 yrs NO

NO

55-71 semester hours (# of hours varies with emphasis) YES Capstone

39-41 semester hours

18 semester hrs of Health, Society & Policy courses must be taken at the U.

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

YES

42 semester hours

NO

81 semester hours

HISTORY

HU

B.A.

NO

YES

C-

NO

INFORMATION SYSTEMS INTERNATIONAL STUDIES JAPANESE

BU

YES

NO

C-

NO

NO

HU

B.A., B.S., Honors B.A., B.S.

NO

YES

C-

NO

NO

HU

B.A.

NO

YES

C

LATIN AMERICAN STUDIES

HU

B.A.

NO

YES

C

LINGUISTICS

HU

B.A.

NO

YES

MANAGEMENT

BU

B.A., B.S. Honors

YES

NO

B for LING 1200; Call others, 3.0 GPA in major courses. C-

NO

NO

YES

75 semester hours

MARKETING

BU

B.A., B.S. Honors

YES

NO

C-

NO

NO

YES

78 semester hours

50% of all Business classes must be taken at the U.

MATERIALS SCIENCE & ENGINEERING

EN

B.S.

YES

NO

NO

129.5 semester hours (including University general requirements)

University of Utah Policy

MATH

SC

B.A., B.S. Honors

NO

YES

C is required for all courses; Must maintain a Engr GPA of 2.3 C; C+ for teaching majors

NO

NO

YES

18 upper-division semester hours of Math courses must be taken at the U.

MECHANICAL ENGINEERING

EN

B.S.

YES

NO

NO

NO

YES

MEDICAL LABORATORY SCIENCE

MD

B.S.

YES

NO

C-; Must maintain a min. cumulative GPA of 2.5 C-

NO

NO

YES

METALLURGICAL ENGINEERING

MI

B.S.

NO

NO

C-

54-64 semester hours of mathematics & allied courses (# of hours varies with emphasis) 126.5 semester hours (including University general requirements) 96 semester hours for Medical Technology 59 semester hour for Cytotechnology 128 semester hours (including University general requirements)

33 semester hours 34 semester hours.

NO

NO

NO

33 semester hours

36 semester hours

viii

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U) 10 History courses must be taken at the U (including HIST 4990). 50% of all Business classes must be taken at the U. University of Utah Policy 15 semester hours of Japanese must be taken at the U. University of Utah Policy

17 semester hours of Linguistics courses must be taken at the U. 50% of all Business classes must be taken at the U.

University of Utah Policy

University of Utah Policy

University of Utah Policy

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

MIDDLE EAST STUDIES

HU

B.A.

NO

YES

C is required for all Middle East Studies courses

NO

NO

YES

35-37 semester hours

MINING ENGINEERING

MI

B.S.

NO

NO

MODERN DANCE

FA

B.F.A.

YES

YES

C-

QB not required for BFA YES

NO

QB not required for B.Mus

NO

AR

B.S, HONORS

YES

YES

3.0 for admissions

MULTI-DISCIPLINARY DESIGN MUSIC

FA

B.A., B.Mus

YES

YES

C

NURSING

NU

B.S.

YES

NO

C

7 yrs for Anat & Phys

OCCUPATIONAL THERAPY

HE

MOT

YES

NO

C; Must maintain cumulative GPA of 3.0

OPERATIONS MANAGEMENT

BU

B.S., Honors

YES

NO

C-

5 yrs for Human Anato my NO

PARKS, RECREATION & TOURISM

HE

B.A., B.S.

NO

YES

C-; Maintain 2.5 GPA

PHARMACY

PH

PHARM.D

YES

NO

3.0 GPA

PHILOSOPHY

HU

B.A., B.S. Honors

NO

YES

PHYSICAL THERAPY

HE

DPT

YES

NO

C-; must maintain 2.0 GPA in all Philosophy courses C; Must maintain cumulative GPA of 3.0

ix

NO

YES

YES

YES, 10 yrs.

NO

126 semester hours (including University general requirements) 79 semester hours

University of Utah Policy

74 semester hrs

Full professional program must be taken at the U; may petition for exemptions Half of private study and large ensemble requirements must be taken at the U. University of Utah Policy

87-96 semester hours (# of hours varies with emphasis) 64 semester hours

YES

NO

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U) University of Utah Policy

University of Utah Policy

Bachelor degree required.

University of Utah Policy

81 semester hours

50% of all Business classes must be taken at the U.

58-73 semester hours

University of Utah Policy

49-55 semester hours of Pre-Pharmacy hours

All Professional courses must be taken at the U.

36 semester hours

PHIL 4010 & three 5000level courses must be taken at the U. University of Utah Policy

Bachelor Degree required

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

GEN ED VAR?

TIME LIMIT ?

CRS 1X/YR

HR REQ FOR MAJOR CRS (122 required for Graduation)

PHYSICS

SC

B.A., B.S.

NO

YES

NO

NO

YES

68-100 Semester Hours

POLITICAL SCIENCE

SB

B.A., B.S.

NO

YES

NO

NO

NO

36 semester hours 12 semester hours in Allied Fields

15 semester hours of Political Science courses must be taken at the U.

PSYCHOLOGY

SB

B.A., B.S.

YES

YES

C-; Must maintain 2.0 GPA in all Physics courses C- in required courses; C average overall in Political Science courses C; Must have a 2.8 GPA to update to full major status

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U) University of Utah Policy

NO

Take within 10 yrs except PSY 1010 & PSY 3000

NO

41 semester hours (25 of which must be upper-division) 12 semester hours in Allied Work (6 of which must be upperdivision)

10 semester hours of Psychology must be taken at the U, 8 of which must be upper-division.

RECREATIONAL THERAPY RELIGIOUS STUDIES

HU

B.A.

NO

YES

C

RUSSIAN

HU

B.A.

NO

YES

C

SECONDARY EDUCATION

ED

B.A., B.S., B.F.A., B.Mus

YES

SOCIOLOGY

SB

B.A., B.S.

NO

YES

C-; Must maintain GPA of 2.5 in Sociology courses

NO

NO

NO

SOCIAL WORK

SW

B.S.W.

YES

NO

YES

NO

NO

SPANISH

HU

B.A.

NO

YES

C; Must maintain GPA of 2.35 in Social Work courses C

SPANISH TEACHING

HU

B.A.

NO

YES

C

x

YES

xi

Only 12 credits may transfer 37 semester hours.

C in licensure and major courses. See major/minor for additional restrictions

5 years

NO

See individual xii majors

15 semester hours of Russian must be taken at the U. University of Utah Policy

37 semester hours 12 semester hours in Allied Work (9 of which must be upperdivision) 57 semester hours

18 semester hours of Sociology must be taken at the U.

34-37 semester hours.

15 semester hours of Spanish must be taken at the U.

33 semester hours.

15 semester hours of Spanish must be taken at the U.

University of Utah Policy

COLLEGE i

DEGREES OFFERED

RESTRICTED MAJOR? ii

MINOR

MIN ACCEPTABLE GRADE

SPECIAL EDUCATION

ED

B.S.

YES

NO

C; Must maintain a GPA of 3.00

THEATRE

FA

B.A., B.F.A.

YES (ATP)

YES

C

B, must maintain a 3.0 GPA in Urban Ecology course work C- or better in all major coursework

xiii

YES (MTP)

TIME LIMIT ?

CRS 1X/YR

xiv

URBAN ECOLOGY

AR

B.A., B.S, HONORS

NO

YES

WRITING & RHETORIC STUDIES

HU

BA, BS, HONORS

NO

YES

i

GEN ED VAR?

NO

NO

NO

YES

HR REQ FOR MAJOR CRS (122 required for Graduation) 30-31 semester hours in teacher edu core. 34-37 semester hours in speciality courses (# of hours varies with emphasis) 25 semester hours in core Theatre requirements 48-63 semester hours in program requirements (# of hours varies with emphasis) 47 semester hours

36 semester hours

DEPT RESIDENCE REQUIREMENT (30 sem hrs for U, 20 of iii last 30 hrs at the U) University of Utah Policy

15 semester hours in Theatre must be taken at the U.

University of Utah Policy

University of Utah Policy

The Colleges within the University of Utah offering undergraduate degrees include Architecture (AR), Business (BU), Education (ED), Engineering (EN), Fine Arts (FA), Health (HE), Humanities (HU), Medicine (MD), Mines & Earth Sciences (MI), Nursing (NU), Science (SC), Social and Behavioral Science (SB), and Social Work (SW). ii Students requesting admission to a restricted major will normally be accepted into “PRE” major status. Additional requirements must be met before acceptance into the program. Please refer to the specific department for information on admission criteria. iii The University of Utah’s residency hour requirement states of the total hours required for graduation that at least 30 semester hours must be earned in residence at the U. In addition, 20 of the last 30 hours must be in residence at the University of Utah. iv Computer Engineering majors must take two Intellectual Exploration classes in each of Fine Arts, Humanities and Social Sciences. These must include an ethics course, and two classes numbered 3000 or higher. A list of ethics classes is available from the academic advisor. v Computer Science majors must take two Intellectual Exploration classes in each of Fine Arts, Humanities, and Social Sciences. These must include two classes numbered 3000 or higher. vi All students must take two classes in each of the following three areas: fine arts, humanities, and social and behavioral science. An ethics class is required. vii The Athletic Training Major and the Physical Education Teaching Education major is restricted and is limited to 20 students by special admissions only. viii The College of Engineering has special accreditation requirements for Intellectual Exploration courses. See the department for details of these requirements. ix Occupational Therapy (OT) is a preprofessional major for students entering the professional program the senior year of their baccalaureate studies. Unless a student has been accepted into the professional program, he or she may not declare occupational therapy studies as a major. Students are encouraged to declare and pursue a separate major while simultaneously completing the OT prerequisites. Starting in fall 2015, all applicants must have a bachelor’s degree completed prior to starting the Occupational Therapy program.

x

The degree is granted through the college of the teaching major. Students must also apply to the Secondary Teacher Licensure Program through the College of Education. xi The departments offering teaching minors are: Biology, Chemistry, English, Geography, Health Promotion and Education, History, Spanish, Mathematics, and Physics. xii The departments offering teaching majors are: Art, Biology, Chemistry, Dance, English, Earth Science, Exercise and Sport Science, Health Promotion and Education, History, Mathematics, Music, Physics, Spanish, and Theatre. xiii Students with an emphasis in Actor Training must audition for acceptance into the program. There is open admission to all other programs. xiv

Students with a BFA Emphasis in the Musical Theatre Program, MTP, must audition for acceptance into the program

BIOMEDICAL ENGINEERING

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required to enter into the major in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: BIOEN 1010, 1020 and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and 2250; and PHYS 2210, and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at BYU to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at BYU that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU COURSE PDBIO 360 or MMBIO 430 CHEM 105 or CHEM 111

COURSE TITLE Cell Biology

CR 3

Advanced Cell Biology General College Chemistry Principles of Chemistry

3 4 3

CHEM 107 CHEM 106 or CHEM 112

General College Chemistry Lab General College Chemistry Principles of Chemistry

1 3 3

CHEM 351

Organic Chemistry

CHEM 353 or CHEM 354

Organic Chem Lab –Non-Major or Organic Chemistry Lab - Majors

CHEM 352

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

BIOL 2020

Principles of Cell Biology

3

Major Requirement

CHEM 1210 CHEM 1215 CHEM 1225

General Chemistry I General Chemistry Lab I General Chemistry Lab II

4 1 1

Major Requirement

CHEM 1220

General Chemistry II

4

Major Requirement

3

CHEM 2310

Organic Chemistry I

4

Major Requirement

1-2

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement

2

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement

Organic Chemistry

3

CHEM 2320

Organic Chemistry II

4

Track Elective

MATH 112

Calculus 1

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus 2

4

MATH 1220

Calculus II

4

Major Requirement

MATH 314 MATH 334 MATH 313

3 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra

3

Major Requirement

4

Major Requirement

STAT 321

Calculus 3 Ordinary Differential Equations Elementary Linear Algebra Elements of Mathematical Statistics

3

MATH 3070 PHYS 2210

4 4

Major Requirement Major Requirement

1

Track Elective

PHSCS 121

Principles of Physics 1

3

Applied Statistics I Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & engineers II

4

Major Requirement

1

Track Elective

MATH 2250

PHYS 2215 PHYS 2220 PHSCS 123 PHSCS 220

Principles of Physics 2 Principles of Physics 3

Update 08/2016 Information is subject to change.

3 3

PHYS 2225

Major Requirement

BYU COURSE ENGL 150

COURSE TITLE Writing & Rhetoric

CR

U OF U COURSE

3

WRTG 2010

U OF U COURSE TITLE Intermed Writing: Academic Writing & Research

CR 3

BIOMEDICAL ENGINEERING REQUIREMENT Allied Credit



While attending BYU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Brigham Young University: Academic Advisement, (801) 422-3641 University of Utah: 3221 Sorenson Molecular Biology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required to enter into the major in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: BIOEN 1010, 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and 2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0



Transferring Courses: The following courses may be taken at BYU-Idaho to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at BYU-Idaho that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. BYUIDAHO COURSE

COURSE TITLE

CR

BIOL 376

Cell & Molecular Biology

3

CHEM 105

General Chemistry

4

CHEM 106

General Chemistry

4

CHEM 351

Organic Chemistry

4

CHEM 352

Organic Chemistry

FDMAT 112

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

Principles of Cell Biology General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II Organic Chemistry I Organic Chemistry Lab I Organic Chemistry II Organic Chemistry Lab II

3 4 1 4 1 4 2 4 2

Major Requirement

4

BIOL 2020 CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225 CHEM 2310 CHEM 2315 CHEM 2320 CHEM 2325

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus II

3

MATH 1220

Calculus II

4

Major Requirement

MATH 214 MATH 371 MATH 341

Multivariate Calculus Intro Ordinary Differential Equations Linear Algebra

3 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II Intermed Writing: Academic Writing & Research

3

Major Requirement

4 4

Major Requirement

MATH 2250 PHYS 2210 PHYS 2215

PH 121

Principles of Physics I

3 PHYS 2220

PH 123 PH 220 ENG 311

Principles of Physics II Principles of Physics III Advanced Writing & Critical Reading

3 3

PHYS 2225

3

WRTG 2010

Major Requirement Major Requirement Major Requirement Track Elective Track Elective

Major Requirement 1 Track Elective 4 Major Requirement 1 Track Elective 3

Allied Credit



BYU-Idaho offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the

Update 08/2016 Information is subject to change.

U. 

If you have further questions regarding this major, you may contact: BYU-Idaho: Career & Academic Advising, Kimball 250, (208) 496-1167 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required to enter into the major in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Dixie State University to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at Dixie State that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. DIXIE COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

Major Requirement

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement

CHEM 2320

Organic Chemistry II

4

CHEM 2320

Organic Chemistry II

4

Track Elective

CHEM 2325

Organic Chemistry II Lab

1

CHEM 2325

Organic Chemistry Lab II

2

Track Elective

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Multivariate Calculus Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210

3

Major Requirement

4 4

Major Requirement

PHYS 2210

Physics of Scientists & Engineers I

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II Intermed Writing: Academic Writing & Research

MATH 2250 PHYS 2210 PHYS 2215

4 PHYS 2220 PHYS 2225

PHYS 2220

Physics of Scientists & Engineers II

4

ENGL 2010

Intermediate Writing

3

Update 08/2016 Information is subject to change.

WRTG 2010

Major Requirement 1 Track Elective 4 Major Requirement 1 Track Elective 3

Allied Credit



Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Dixie State University: Dr. Victor Hasfurther (435) 652-7861, [email protected] University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following course may be taken at LDS Business College to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at LDS Business College that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

LDSBC COURSE ENG 201

COURSE TITLE Intermediate College Writing

CR 3

U OF U COURSE WRTG 2010

U OF U COURSE TITLE Intermed Writing: Academic Writing & Research

CR 3

BIOMEDICAL ENGINEERING REQUIREMENT Allied Credit



LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0



Transferring Courses: The following courses may be taken at Salt Lake Community College to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at SLCC that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. SLCC COURSE BIOL 2020 BIOL 2025

COURSE TITLE Cell Biology Cell Biology Lab

CHEM 1210

U OF U COURSE

U OF U COURSE TITLE

CR 4 0

BIOL 2020

Principles of Cell Biology

3

General Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

General Chemistry Lab I

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

General Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

General Chemistry Lab II

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry Lab I

1

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

CHEM 2320

Organic Chemistry II

4

CHEM 2320

Organic Chemistry II

4

Track Course

CHEM 2325

Organic Chemistry Lab II

1

CHEM 2325

Organic Chemistry Lab II

2

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

MATH 2210

Multivariate Calculus Differential Equations/Linear Algebra Physics for Scientists & Engineers I

3

MATH 2210

3

3 4

MATH 2250 PHYS 2210

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II

Track Course Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

MATH 2250 PHYS 2210 PHYS 2215 PHYS 2220 PHYS 2225

Physics for Scientists & Engineers I Lab Physics for Scientists & Engineers II Physics for Scientists & Engineers II Lab

Update 08/2016 Information is subject to change.

PHYS 2215 1 4

PHYS 2220

1

PHYS 2225

CR

BIOMEDICAL ENGINEERING REQUIREMENT

4 4 1 4

Track Elective Major Requirement

1 Track Elective

SLCC COURSE ENGL 2010 or ENGL 2100



 

COURSE TITLE Intermediate Writing Technical Writing

CR 3 3

U OF U COURSE WRTG 2010

U OF U COURSE TITLE Intermed Writing: Academic Writing & Research

CR 3

BIOMEDICAL ENGINEERING REQUIREMENT Allied Credit

Salt Lake Community College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a certificate of completion, which states all general education requirements have been completed. While attending SLCC, students may take foreign language credits and/or other transferable electives for the U. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Salt Lake Community College: Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-9574858, [email protected] University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on t he GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Snow College to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at Snow College that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. SNOW COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

Major Requirement

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement

CHEM 2320

Organic Chemistry II

4

CHEM 2320

Organic Chemistry II

4

Track Elective

CHEM 2325

Organic Chemistry II Lab

1

CHEM 2325

Organic Chemistry Lab II

2

Track Elective

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Multivariable Calculus Linear Algebra Differential Equations

3 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II

3

Major Requirement

4 4

Major Requirement

MATH 2250 PHYS 2210 PHYS 2215

PHYS 2210 PHYS 2220

Physics for Scientists & Engineers I Physics for Scientists & Engineers II

Update 08/2016 Information is subject to change.

4 PHYS 2220 4

Major Requirement 1 4

Track Elective Major Requirement

SNOW COURSE

COURSE TITLE

ENGL 2010 or ENGL 2014



 

Intermediate Research Writing Intermediate Writing: Honors Thesis

CR

3 3

U OF U COURSE PHYS 2225

WRTG 2010

U OF U COURSE TITLE Physics Lab for Scientists & Engineers II Intermed Writing: Academic Writing & Research

CR 1

3

BIOMEDICAL ENGINEERING REQUIREMENT Track Elective

Allied Credit

Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Snow College, students may take foreign language credits and/or other transferable electives for the U. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Snow College: Brian Newbold, Science Building #105, (435) 283-7515 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Southern Utah University to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

SUU COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

BIOL 3310

Cell & Molecular Biology

3

BIOL 2020

Principles of Cell Biology

3

Major Requirement

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

Princ of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

Major Requirement

CHEM 1225

Princ of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement

CHEM 2320

Organic Chemistry II

4

CHEM 2320

Organic Chemistry II

4

Track Elective

CHEM 2325

Organic Chemistry II Lab

1

CHEM 2325

Organic Chemistry Lab II

2

Track Elective

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra w/Applications Differential Equations

4 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra

3

Major Requirement

4

Major Requirement

MATH 3700

Probability & Statistics

5

MATH 3070 PHYS 2210

4 4

Major Requirement

PHYS 2210

Physics for Scientists & Engineers I

Applied Statistics I Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II

MATH 2250

PHYS 2215 4 PHYS 2220

PHYS 2220

Physics for Scientists & Engineers II

Update 08/2016 Information is subject to change.

PHYS 2225 4

Major Requirement 1 Track Elective 4 Major Requirement 1 Track Elective

SUU COURSE ENGL 2010

COURSE TITLE Intermediate Writing

CR

U OF U COURSE

3

WRTG 2010

U OF U COURSE TITLE Intermed Writing: Academic Writing & Research

CR 3

BIOMEDICAL ENGINEERING REQUIREMENT Allied Credit



While attending SUU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from SUU, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Southern Utah University: Student Development Center, (435) 586-5419 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at USU/USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

USU/USUE COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

BIOL 5210

Cell Biology

3

BIOL 2020

Principles of Cell Biology

3

Major Requirement

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

Chemical Principles Lab I

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

Major Requirement

CHEM 1225

Chemical Principles Lab II

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

CHEM 2315

Organic Chemistry Lab I

1

CHEM 2315

Organic Chemistry Lab I

2

Major Requirement

CHEM 2320

Organic Chemistry II

4

CHEM 2320

Organic Chemistry II

4

Track Elective

CHEM 2325

Organic Chemistry Lab II

1

CHEM 2325

Organic Chemistry Lab II

2

Track Elective

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210

3

MATH 2210

Major Requirement

4

MATH 2250 PHYS 2210

4 4

Major Requirement

PHYS 2210

General Physics: Science & Engineering I

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II Intermed Writing: Academic Writing & Research

3

MATH 2250

Multivariate Calculus Linear Algebra & Differential Equations

PHYS 2215 4 PHYS 2220

PHYS 2220 ENGL 2010

General Physics: Science & Engineering II Intermed Writing: Research Writing in Persuasive Mode

Update 08/2016 Information is subject to change.

PHYS 2225 4 3

WRTG 2010

Major Requirement 1 Track Elective 4 Major Requirement 1 Track Elective 3

Allied Credit



While attending USU/USUE, students may complete General Education requirements and courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from USU/USUE, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Utah Valley University to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at UVU that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BIOL 3400

Cell Biology

3

BIOL 2020

Principles of Cell Biology

3

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry I

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

2

BIOMEDICAL ENGINEERING REQUIREMENT Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

CHEM 2320

Organic Chemistry II

4

CHEM 2320

Organic Chemistry II

4

Track Elective

CHEM 2325

Organic Chemistry II Lab

1

CHEM 2325

Organic Chemistry Lab II

2

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

5

MATH 1220

Calculus II

4

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210

3

PHYS 2210

Physics for Scientists & Engineers I

4

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II

Track Elective Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

UVU COURSE

COURSE TITLE

CR

U OF U COURSE

MATH 2250 PHYS 2210 PHYS 2215 PHYS 2220

PHYS 2220 ENGL 2010 or ENGL 2020

PHYS 2225

Physics for Scientists & Engineers II

4

Intermed Writing: Hum/SS Intermed Writing: Sci & Tech

3 3

Update 08/2016 Information is subject to change.

WRTG 2010

U OF U COURSE TITLE

Intermed Writing: Academic Writing & Research

CR

4 4 1 4

Track Elective Major Requirement

1 Track Elective

3

Allied Credit



 

Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may take foreign language credits and/or other transferable electives for the U. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Utah Valley University: Career and Academic Advising Center, LC 402, (801) 863-8425, [email protected] University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on a the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Weber State University to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at Weber State that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

WEBER COURSE

COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

U OF U COURSE

U OF U COURSE TITLE Principles of Cell Biology General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II Organic Chemistry I Organic Chemistry Lab I Organic Chemistry II Organic Chemistry Lab II

3 4 1 4 1 4 2 4 2

Major Requirement

CR

ZOOL 3200

Cell Biology

4

CHEM 1210

Principles of Chemistry I

5

CHEM 1220

Principles of Chemistry II

5

CHEM 2310

Organic Chemistry I

5

CHEM 2320

Organic Chemistry II

5

BIOL 2020 CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225 CHEM 2310 CHEM 2315 CHEM 2320 CHEM 2325

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210

4

MATH 2210

Major Requirement

4 3 3

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

3

MATH 2250 MATH 3410 MATH 3420

Calculus III Linear Algebra & Differential Equations Probability & Statistics Probability & Statistics

4

Major Requirement

4 4

Major Requirement

PHYS 2210

Physics for Scientists & Engineers I

Applied Statistics I Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II Intermed Writing: Academic Writing & Research

MATH 3070 PHYS 2210 PHYS 2215

5 PHYS 2220 PHYS 2225

PHYS 2220

Physics for Scientists & Engineers II

5

ENGL 2010

Intermediate College Writing

3



WRTG 2010

Major Requirement Major Requirement Major Requirement Track Elective Track Elective

Major Requirement 1 Track Elective 4 Major Requirement 1 Track Elective 3

Allied Credit

While at Weber State, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.

Update 08/2016 Information is subject to change.

Students may have a letter of completion sent from WSU, which states all general education requirements have been completed. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Weber State University: Academic Advisement, (801) 626-6752 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

BIOMEDICAL ENGINEERING Biomedical Engineering is the application of the principles and tools of engineering to the enhancement of scientific research and problem solving in the biological, pharmacological, and medical fields. Biomedical Engineering is of particular relevance and benefit to students with interests in the application and relationship of biology, mathematics, chemistry, and physics to medicine and health. An undergraduate degree in Biomedical Engineering is also particularly effective for studies in medicine, dentistry, and veterinary medicine. 

Admission Criteria: Students beginning the undergraduate program, including transfer students, should choose the Pre-Biomedical Engineering category as their major for registration purposes. Based on meeting prerequisites, pre-major students are eligible to register for all classes required t o e n t e r i n t o t h e m a j o r in the freshman and sophomore years. Students intending to earn a B.S. degree in Biomedical Engineering apply for admission to major status during their sophomore year. To be considered for major status, students must have completed the following ten classes: B I O E N 1 0 1 0 , 1020, and 2100; BIOL 2020; CHEM 1220 and 1225; MATH 2210 and2250; and PHYS 2210 and 2220. Admission is restricted and will be based on the GPA of the required courses listed on the application form and the cumulative U of U GPA. Only the top 60 applicants for major status are accepted each academic year. To retain major status once admitted, students must maintain a minimum university cumulative GPA of 3.0.



Transferring Courses: The following courses may be taken at Westminster College to fulfill requirements for the Biomedical Engineering degree at the U. There are additional requirements not offered at Westminster College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

WESTMINSTER COURSE

COURSE TITLE

CR

BIOL 405

Cell Biology & Lab

4

CHEM 111

Principles of Chemistry I & Lab

4

CHEM 112

Principles of Chemistry II & Lab

4

CHEM 303

Organic Chemistry I & Lab

4

CHEM 304

Organic Chemistry II & Lab

MATH 201

U OF U COURSE

U OF U COURSE TITLE

CR

BIOMEDICAL ENGINEERING REQUIREMENT

Principles of Cell Biology General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II Organic Chemistry I Organic Chemistry Lab I Organic Chemistry II Organic Chemistry Lab II

3 4 1 4 1 4 2 4 2

Major Requirement

4

BIOL 2020 CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225 CHEM 2310 CHEM 2315 CHEM 2320 CHEM 2325

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 202

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 203

4

MATH 2210

Major Requirement

4

MATH 2250 PHYS 2210

4 4

Major Requirement

PHYS 211

Physics for Scientists & Engineers I & Lab

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II Intermed Writing: Academic Writing & Research

3

MATH 204

Multivariate Calculus Linear Algebra & Differential Equations

PHYS 2215 4 PHYS 2220 PHYS 2225

PHYS 212

Physics for Scientists & Engineers II & Lab

4

ENGL 110

Composition & Research

4

WRTG 2010

Major Requirement Major Requirement Major Requirement Track Elective Track Elective

Major Requirement 1 Track Elective 4 Major Requirement 1 Track Elective 3

Allied Credit



While attending Westminster College, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.

Update 08/2016 Information is subject to change.



If you have further questions regarding this major, you may contact: Westminster College: General Advising, (801) 832-2280 University of Utah: 3221 Sorenson Molecular Biotechnology Building, (801) 585-3651

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires the student to be eligible to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at BYU to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at BYU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. BYU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 105

General College Chemistry

4

CHEM 1210

General Chemistry I

4

CHEM 106

General College Chemistry

3

CHEM 107

General College Chemistry Lab

1

CHEM 1220 CHEM 1215 CHEM 1225

General Chemistry II General Chemistry Lab I General Chemistry Lab II

4 1 1

MATH 112

Calculus 1

4

MATH 1210

Calculus I

4

MATH 113

Calculus 2

4

MATH 1220

Calculus II

4

PHSCS 121

Principles of Physics 1

3

PHYS 2210

Physics for Scientists & Engineers I

4

CH EN 291

Preprofessional Seminar

.5

ENGL 150

3

3

CH EN 263

Writing & Rhetoric Computational Tools for Chemical Engineers

2

Course may satisfy requirement. See departmental advisor. Intermediate Writing: Academic WRTG 2010 Writing & Research Numerical Methods Applications in CH EN 2450 Chemical Engineering

CH EN 273

Chemical Process Principles

3

CH EN 2800

Fundamentals of Process Engineering

3

ME EN 321

Thermodynamics

3

PHSCS 220

Principles of Physics 3

3

CH EN 2300 PHYS 2220 PHYS 1809

Thermodynamics I Physics for Scientists & Engineers II Elementary General Physics Lab

2 4 1

CHEM 351

Organic Chemistry

3

CHEM 2310

Organic Chemistry

4

2



While attending BYU, students may complete General Education requirements and courses identified to fulfill the University requirements.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Brigham Young University: Academic Advisement, 422-3641 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, 3290 MEB, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll with CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at BYU-Idaho to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at BYU-Idaho that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

CHEM 105

General Chemistry

4

CHEM 106

General Chemistry

4

U OF U MAJOR REQUIREMENT SATISFIED CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225

FDMAT 112

Calculus I

4

MATH 1210

Calculus I

4

MATH 113

Calculus II

3

MATH 1220

Calculus II

4

PH 121

3 3 3

PHYS 2210

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

4

ENG 311

Principles of Physics I Advanced Writing & Critical Reading

ME 322

Thermodynamics I

4

CH EN 2300

2

ME 142 ME 201 ME 202

Engineering Computations I Engineering Mechanics: Statics Strength of Materials

3 2 3

CH EN 1703

Thermodynamics I Intro to Computing in Chemical Engineering

ME EN 1300

Statics & Strength of Materials

4

PH 123

Principles of Physics II

3

CHEM 351

Organic Chemistry

4

PHYS 2220 CHEM 2310 CHEM 2315

Physics for Scientists & Engineers II Organic Chemistry I Organic Chemistry Lab I

4 4 1

BYU-IDAHO COURSE

COURSE TITLE

CR

WRTG 2010

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II

CR 4 1 4 1



BYU-Idaho offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Within either degree, students may take transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: BYU-Idaho: Career & Academic Advising, Kimball 250, (208) 496-1167 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change.

3

2

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses.



Transferring Courses: The following courses may be taken at Dixie State University to requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at Dixie State University that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CR

U OF U MAJOR REQUIREMENT SATSIFIED

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

4

MATH 1220

Calculus II

4

PHYS 2210

Calculus II Physics for Scientists & Engineers I

4

PHYS 2210

4

ENGL 2010

Intermediate Writing

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

ENGR 2300

Engineering Thermodynamics

3

CH EN 2300

Thermodynamics I

2

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315 MATH 2270 MATH 2280

Organic Chemistry I Lab Linear Algebra Ordinary Differential Equations Physics for Scientists & Engineers II Physics for Sci & Engrs I Lab Physics for Sci & Engrs II Lab Statics Strengths of Materials

1 3 3

CHEM 2315

1

MATH 2250

Organic Chemistry Lab I Ordinary Differential Equations & Linear Algebra

4 1 1 3 3

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 1809

Elementary General Physics Lab

1

ME EN 1300

Statics & Strength of Materials

4

DIXIE COURSE

COURSE TITLE

CHEM 1210

PHYS 2220 PHYS 2215 & PHYS 2225 ENGR 2010 ENGR 2140



U OF U COURSE TITLE

CR

3

4

Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie, students may take other transferable electives for the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Dixie State University: Dr. Victor Hasfurther (435) 652-7861, [email protected] University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, lide, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following course may be taken at LDS Business College to fulfill a requirement for the Chemical Engineering degree at the U. There are additional requirements not offered at LDS Business College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

LDSBC COURSE ENG 201

COURSE TITLE Intermediate College Writing

CR 3

U OF U MAJOR REQUIREMENT SATISFIED WRTG 2010

U OF U COURSE TITLE Intermediate Writing: Academic Writing & Research

CR 3



LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah:Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Salt Lake Community College to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at SLCC that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major. SLCC COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

General Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

General Chemistry Lab I

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

General Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

General Chemistry Lab II

1

CHEM 1225

General Chemistry Lab II

1

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

4

MATH 1220

Calculus II

4

PHYS 2210 ENGR 1040 or ENGR 1030 ENGL 2010 or ENGL 2100 ENGR 1040

Calculus II Physics for Scientists & Engineers I Engineering Computing MATLAB Problem Solving Intermediate Writing Technical Writing Matlab

4 3 3 3 3 3

PHYS 2210

Physics for Scientists & Engineers I

4

CH EN 1703

2

WRTG 2010 CH EN 1703

Intro to Engineering Computing Intermediate Writing: Academic Writing & Research Intro to Chemical Engineering

ENGR 2800

Fund of Process Engineering

3

CH EN 2800

Fund of Process Engineering

3

ENGR 2300

Engineering Thermodynamics

2

CH EN 2300

2

ENGR 2450

2

CH EN 2450

3

MATH 2250

PHYS 2220 PHYS 2215 PHYS 2225 ENGR 2010 MEEN 2140

Numerical Techniques Linear Algebra/Differential Equations Physics for Scientists & Engineers II Phys for Sci & Eng Lab I Phys for Sci & Eng Lab II Statics Strength of Materials I

Thermodynamics I Numerical Methods Applications in Chemical Engineering Ordinary Differential Equations & Linear Algebra

4 1 1 3 2

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 1809

Elementary General Physics Lab

1

ME EN 1300

Statics & Strength of Materials

4

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry Lab I

1

CHEM 2315

Organic Chemistry Lab I

1

MATH 2250



3 2

2 4

Salt Lake Community College offers an Associate degree of Pre-Engineering with a Chemical Engineering emphasis, which includes courses required for the Chemical Engineering degree at the U. Note: The Associates in Pre-Engineering does not complete general education requirements for a

Update 08/2015 Information is subject to change.

Bachelor’s degree at the University of Utah. Students should obtain advising regarding general education requirements specific to Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Salt Lake Community College: Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-9574858, [email protected] University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2015 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Snow College to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at Snow College that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major. SNOW COURSE



COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

PHYS 2210 ENGL 2010 or ENGL 2014

Physics for Scientists & Engineers I Intermediate Research Writing Intermed Writing: Honors Thesis

4 3 3

PHYS 2210

Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

4

ENGR 2300

Engineering Thermodynamics

3

CH EN 2300

2

ENGR 2450

Numerical Methods

3

CH EN 2450

Thermodynamics I Numerical Methods Applications in Chemical Engineering

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315 MATH 2270 & MATH 2280

Organic Chemistry I Lab Linear Algebra Differential Equations

1 3 3

CHEM 2315

1

MATH 2250

Organic Chemistry Lab I Ordinary Differential Equations & Linear Algebra

PHYS 2220 PHYS 2215 & PHYS 2225 ENGR 2010 ENGR 2140

Physics for Scientists & Engineers II Physics for Sci & Engrs I Lab Physics for Sci & Engrs II Lab Statics Strength of Materials

4 1 1 2 3

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 1809

Elementary General Physics Lab

1

ME EN 1300

Statics & Strength of Materials

4

WRTG 2010

3

2

4

Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While

Update 08/2016 Information is subject to change.

attending Snow College, students may take other transferable electives for the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Snow College: Brian Newbold, SB 205, (435) 283-7535 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-1715, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Southern Utah University to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

SUU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

4

ENGL 2010

Intermediate Writing

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

ENGR 3000 MATH 2270 & MATH 2280 ENGR 2010 & ENGR 2140

Thermodynamics Linear Algebra With Applications Differential Equations Statics Strength of Materials

3 3 3 3 3

CH EN 2300

2

MATH 2250

Thermodynamics I Ordinary Differential Equations & Linear Algebra

ME EN 1300

Statics & Strength of Materials

4

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

PHYS 2220 PHYS 2215 & PHYS 2225

Physics for Scientists & Engineers II Physics for Sci & Engrs I Lab Physics for Sci & Engrs II Lab

4 1 1

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 1809

Elementary General Physics Lab

1

3

4



While attending SUU, students may complete General Education requirements and courses identified to fulfill the University requirements, including transferable electives for the U. Students may have a letter of completion sent from SUU, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact:

Update 08/2016 Information is subject to change.

Southern Utah University: Student Development Center, (435) 586-5419 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at USU/USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major. USU/USUE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Chemical Principles Lab I

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry

4

CHEM 1225

Chemical Principles Lab II

1

CHEM 1225

General Chemistry Lab II

1

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II General Physics: Science & Engineering I Intermediate Writing: Research Writing in a Persuasive Mode

4

MATH 1220

Calculus II

4

4

PHYS 2210

4

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

3 2 3

CH EN 2300

Thermodynamics I Numerical Methods Applications in Chemical Engineering

2

4

PHYS 2220

3 2 2

MATH 2250

Physics for Scientists & Engineers II Ordinary Differential Equations & Linear Algebra

4

MATH 2250 ENGR 2010 & ENGR 2140

Thermodynamics I Engineering Numerical Methods Engineering Numerical Methods 2 General Physics: Science & Engineering II Linear Algebra & Differential Equations Engineering Mechanics Statics Strength of Materials

ME EN 1300

Statics & Strength of Materials

4

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry Lab I

1

CHEM 2315

Organic Chemistry Lab I

1

PHYS 2210 ENGL 2010 MAE 2300 ENGR 2450 or MAE 2450 PHYS 2220

CH EN 2450

3

2

4



While attending USU/USUE, students may complete General Education requirements and courses identified to fulfill the University requirements, including transferable electives for the U. Students may have a letter of completion sent from USU/USUE, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center 304 (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu 801) 585-7175, [email protected] www.che.utah.edu

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Utah Valley University to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at UVU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

UVU COURSE

CR

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

5

MATH 1220

Calculus II

4

PHYS 2210 ENGL 2010 or ENGL 2020

Physics for Scientists & Engrs I Intermediate Writing – Hum/Soc Sci Intermediate Writing – Sci/Tech

4 3 3

PHYS 2210

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

4

ENGR 2300

Engineering Thermodynamics Computational Methods for Engineering Analysis

3

CH EN 2300

2

3

CH EN 2450

Thermodynamics I Numerical Methods Applications in Chemical Engineering

4

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2215 PHYS 2225 ENGR 2010 ENGR 2140 MATH 2270 MATH 2280

Physics for Scientists & Engrs II Physics for Scientists & Engrs I Lab Physics for Scientists & Engrs II Lab Engineering Statics Mechanics of Materials Linear Algebra Ordinary Differential Equations

PHYS 1809

Elem General Physics Lab

1

ME EN 1300

4

MATH 2250

Statics & Strength of Materials Ordinary Differential Equations & Linear Algebra

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

1

ENGR 2450 PHYS 2220



COURSE TITLE

U OF U MAJOR REQUIREMENT SATISFIED

1 1 3 3 3 3

WRTG 2010

3

2

4

Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may take other transferable electives for the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah Valley University: Fred Orchard, CS 635, (801) 863-6238, [email protected] University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2015 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Weber State University to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at Weber State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CHEM 1210

Principles of Chemistry I

5

CHEM 1220

Principles of Chemistry II

5

U OF U MAJOR REQUIREMENT SATISFIED CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

PHYS 2210

Physics for Scientists & Engineers I

5

PHYS 2210

4

ENGL 2010

Intermediate College Writing

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

ENGR 2300

Thermodynamics I

3

CHEM 2310 ENGR 2010 ENGR 2140

5 3 3

Thermodynamics I Organic Chemistry I Organic Chemistry Lab I

2 4 1

ME EN 1300

4

MATH 2250

Statics & Strength of Materials Ordinary Differential Equations & Linear Algebra

4

MATH 2250

Organic Chemistry I Statics Strength of Materials Linear Algebra & Differential Equations

CH EN 2300 CHEM 2310 CHEM 2315

PHYS 2220 PHYS 2215 PHYS 2225

Physics for Scientists & Engineers II Physics for Sci & Engrs I Lab Physics for Sci & Engrs II Lab

5 1 1

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 1809

Elementary General Physics Lab

1

WEBER COURSE

COURSE TITLE

CR

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II

CR 4 1 4 1

3

4



While attending Weber State, students may complete General Education requirements and courses identified to fulfill the University requirements, including transferable electives for the U. Students may have a letter of completion sent from WSU, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Weber State University: Academic Advisement, (801) 626-6752 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected], www.che.utah.edu

Update 08/2016 Information is subject to change.

CHEMICAL ENGINEERING The chemical engineer uses the physical, life, and engineering sciences to develop products and to devise processes for converting natural resources into needed materials and energy. Chemical engineers work in a variety of areas including energy, materials, food production, medicine, pollution prevention, and environmental remediation. They take into account sustainable long-range and immediate concerns for the environment, safety, and other human needs. 

Admission Criteria: The Chemical Engineering program is a closed major and requires that certain courses are completed with a minimum GPA to be admitted into the major. The lower-division Chemical Engineering courses are open to any student who meets the prerequisites. Major status requires eligibility to enroll in CH EN 1703 and a minimum 2.5 GPA. Major status is required to enroll in all subsequent Chemical Engineering courses. Students are permitted to register no more than twice for any chemical engineering course.



Transferring Courses: The following courses may be taken at Westminster College to fulfill requirements for the Chemical Engineering degree at the U. There are additional requirements not offered at Westminster College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

CHEM 111

Principles of Chemistry I & Lab

4

CHEM 112

Principles of Chemistry II & Lab

4

U OF U MAJOR REQUIREMENT SATISFIED CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225

MATH 201

Calculus I

4

MATH 1210

Calculus I

4

MATH 202

4

MATH 1220

Calculus II

4

PHYS 211

Calculus II Physics for Scientists & Engineers I & Lab

4

PHYS 2210

4

ENGL 110

Composition & Research

3

CHEM 303

Organic Chemistry I & Lab Linear Algebra & Differential Equations Physics for Scientists & Engineers II & Lab

4

WRTG 2010 CHEM 2310 CHEM 2315

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research Organic Chemistry I Organic Chemistry Lab I Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers II Elem General Physics Lab

WESTMINSTER COURSE

MATH 204 PHYS 212

COURSE TITLE

CR

4 4

MATH 2250 PHYS 2220 PHYS 1809

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II

CR 4 1 4 1



While attending Westminster, students may complete General Education requirements and courses identified to fulfill the University requirements.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Westminster College: General Advising, (801) 832-2280 University of Utah: Geoff Silcox, 3290 MEB, (801) 581-8820, [email protected] Tracey Farnsworth, (801) 585-7175, [email protected] www.che.utah.edu

Update 08/2015 Information is subject to change.

3 4 1 4 4 1

CIVIL ENGINEERING

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Brigham Young University to satisfy pre- Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at BYU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. BYU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

CHEM 105

General College Chemistry

4

CHEM 1210

WRTG 150

Writing & Rhetoric

3

WRTG 2010

MATH 112

4

PHSCS 121 PHSCS 123 PHSCS 220 CE EN 100A CE EN 100B

Calculus 1 Intro to Newtonian Mechanics Intro to Waves, Optics & Thermodynamics Intro to Electricity & Magnetism Civil & Environmental Engineering Seminar

MATH 1210 PHYS 2210 PHYS 2215 PHYS 2220 PHYS 2225

CHEM 106

General College Chemistry

CHEM 107 CHEM 351

U OF U COURSE TITLE

CR

General Chemistry I Intermediate Writing: Academic Writing & Research

4

4 4 1 4 1

CVEEN 1000

Calculus I Physics for Scientists & Engineers I Physics Lab for Sci & Engrs I Physics For Scientists & Engineers II Physics Lab for Sci & Engrs II Intro to Civil & Environmental Engineering

3

CHEM 1220

General Chemistry II

4

General College Chemistry Lab

1

CHEM 1225

General Chemistry Lab II

1

Organic Chemistry

3

CHEM 2310

Organic Chemistry I

4

CHEM 353

Organic Chemistry Lab

1

CHEM 2315

Organic Chemistry Lab I

1

MATH 113

Calculus 2

4

MATH 1220

Calculus II

4

MATH 314 MATH 334 MATH 313

Calculus of Several Variable Ordinary Differential Equations Elementary Linear Algebra

3 3 3

MATH 2210

Calculus III Differential Equations & Linear Algebra

3

C S 142

Intro to Computer Programming

3

CS 1000

3

ME EN 250

Science of Engineering Materials

3

MSE 2160

Engineering Computing Elements of Materials Science & Engineering

ME EN 321

Thermodynamics

3

CH EN 2300

2

ME EN 250

Science of Engineering Materials

3

MSE 2170

Thermodynamics I Elements of Materials Science & Engineering

CE EN 112

Engineering Drafting w/CAD

3

MG EN 1050

Technical Communications

2

Update 08/2016 Information is subject to change.

3 3 3 .5 .5

MATH 2250

3

2

4

3

1.5

CR

U OF U MAJOR REQUIREMENT SATISFIED

3

MG EN 2400

Introductory Surveying

3

CE EN 203

Engineering Measurements Engineering Mechanics-Mechanics of Materials

3

CVEEN 2140

Strength of Materials

3

CE EN 204

Engineering Mechanics-Dynamics

3

ME EN 2020

Particle Dynamics

2

CE EN 321

Structural Analysis

3

CVEEN 3210

Structural Analysis I

3

BYU COURSE CE EN 113

COURSE TITLE

U OF U COURSE TITLE

CR

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Brigham Young University: Ira A. Fulton College of Engineering and Technology Advisement Center, 242 CB, (801) 422-4325 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725 www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at BYU-Idaho to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at BYUIdaho that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

CHEM 105

General Chemistry

4

U OF U MAJOR REQUIREMENT SATISFIED CHEM 1210 CHEM 1215

FDENG 301

Advanced Writing & Research

3

WRTG 2010

FDMAT 112 PH 121 PH 123 PH 220

Calculus I Principles of Physics I Principles of Physics II Principles of Physics III

4 3 3 3

MATH 1210

PH 150

Beginning Physics Lab

1

CHEM 106

General Chemistry

4

CHEM 351

Organic Chemistry

MATH 113

BYU-IDAHO COURSE

COURSE TITLE

CR

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I Intermediate Writing: Academic Writing & Research

CR 4 1 3 4 4 4

4

PHYS 2215 CHEM 1220 CHEM 1225 CHEM 2310 CHEM 2315

Calculus I Physics for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers I General Chemistry II General Chemistry Lab II Organic Chemistry I Organic Chemistry Lab I

Calculus II

3

MATH 1220

Calculus II

4

MATH 214

Multivariate Calculus

3

MATH 2210

Calculus III

3

ME 204

Engineering Mechanics: Dynamics

3

ME EN 2020

Particle Dynamics

2

ME 202

Strength of Materials

3

CVEEN 2140

3

ME 250

Materials Science

3

MSE 2160

Strength of Materials Elements of Materials Science & Engineering

ME 322

Thermodynamics I

3

CH EN 2300

Thermodynamics I

2

PHYS 2210 PHYS 2220

Please see website for information on Major Status requirements.www.civil.utah.edu/ug_forms

Update 08/2016 Information is subject to change.

4 1 4 1

3

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: BYU-Idaho: College of Physical Sciences and Engineering, Austin 106, (208) 496-9880 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725, www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Dixie State University to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at Dixie State that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. DIXIE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

1

ENGL 2010

Intermediate Writing

3

WRTG 2010

ENGR 1000

Intro to Engineering

2

CVEEN 1000

General Chemistry Lab I Intermediate Writing: Academic Writing & Research Intro to Civil & Environmental Engineering

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

Physics for Scientists & Engineers I

4

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

1

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

MATH 2210 MATH 2270 MATH 2280

Multivariable Calculus Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210

3

MATH 2250

Calculus III Differential Equations & Linear Algebra

CS 1400

Fundamentals of Programming

3

CS 1000

Engineering Computing

3

ENGR 2010

Statics

3

CVEEN 2010

Statics

3

ENGR 2030

Dynamics

3

ME EN 2030

Particle Dynamics

3

Update 08/2016 Information is subject to change.

3 2

4

DIXIE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

ENGR 2140

Strength of Materials

3

CVEEN 2140

Strength of Materials

3

ENGR 2300

Engineering Thermodynamics

3

CH EN 2300

Thermodynamics I

2

PHYS 2215

Phys for Scientist/Engr I Lab Physics for Scientists & Engineers II

1

PHYS 2215

1

4

PHYS 2220

Physics Lab for Sci & Engr I Physics for Scientists & Engineers II

PHYS 2220

4

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Dixie State University: Dr. Victor Hasfurther (435) 652-7861, [email protected] University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725, www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: No courses are currently listed as transferring from LDS Business College to satisfy specific requirements for this major. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725 www.civil.utah.edu

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning.   



Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5. Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken. Transferring Courses: The following courses may be taken at Salt Lake Community College to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at SLCC that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

SLCC COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

General Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

General Chemistry I Lab

1

CHEM 1215

1

ENGL 2010

Intermediate Writing

3

WRTG 2010

General Chemistry Lab I Intermediate Writing: Academic Writing & Research

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

4

PHYS 2215

Physics for Sci & Eng Lab I

1

PHYS 2215

CEEN 1100

3

CVEEN 1000

MSE 2170

Civil Engineering Design Material Science for Civil Engineering

1.5

MSE 2170

Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Intro to Civil & Environmental Engineering Elements of Materials Science & Engineering

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

CHEM 1220

General Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

General Chemistry Lab II

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry Lab I

1

CHEM 2315

Organic Chemistry Lab I

1

ENGR 2010

Statics

3

CVEEN 2010

Statics

3

MATH 2210

Multivariate Calculus Linear Algebra and Differential Equations Physics for Scientists & Engineers II

3

MATH 2210

3

3

MATH 2250

4

PHYS 2220

Calculus III Differential Equations & Linear Algebra Physics for Scientists & Engineers II

MATH 2250 PHYS 2220

Update 08/2015 Information is subject to change.

3

1 2 1.5

4 4

U OF U MAJOR REQUIREMENT SATISFIED

SLCC COURSE ENGR 2140/2145

COURSE TITLE

CR

U OF U COURSE TITLE

Strength of Materials I/Lab

2, 1

CVEEN 2140

Strength of Materials

3

ENGR 1040

Engineering Computing

3

CS 1000

Engineering Computing

3

CEEN 2240

Surveying

3

MG EN 2400

Introductory Surveying

3

ARCH 1310

Introduction to AutoCAD

3

MG EN 1050

Technical Communications

2

ENGR 2300

Engineering Thermodynamics

2

CH EN 2300

2

MSE 2160

Elements of Materials Science

3

MSE 2160

Thermodynamics I Elements of Materials Science & Engineering

CR

3

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: The Associates in Pre-Engineering does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Salt Lake Community College: : Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-9574858, [email protected] University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725, www.civil.utah.edu

Update 08/2015 Information is subject to change.

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Snow College to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at Snow that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

SNOW COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

1

ENGL 2010

Intermediate Research Writing

3

WRTG 2010

ENGR 1000

Intro to Engineering

2

CVEEN 1000

General Chemistry Lab I Intermediate Writing: Academic Writing & Research Intro to Civil & Environmental Engineering

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2215

Physics Scientists & Engineers I Lab

1

PHYS 2215

Physics Lab for Sci & Engineers I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

1

ENGR 2010

Statics

3

CVEEN 2010

Statics

3

ENGR 2140

Strength of Materials

3

CVEEN 2140

Strength of Materials

3

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

MATH 2210

Multivariable Calculus

3

MATH 2210

Calculus III

3

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Physics for Scientists & Engineers II

4

Update 08/2016 Information is subject to change.

3 2

CS 1400 CS 1405

Programming Fundamentals Programming Fundamentals Lab

3 1

CS 1000

Engineering Computing

3

ENGR 2030

Dynamics

3

ME EN 2030

Particle Dynamics

3

ENGR 2240

Surveying & Global Positioning

3

MG EN 2400

Introductory Surveying

3

ENGR 2300

Engineering Thermodynamics

3

CH EN 2300

2

MATH 2250

Linear Algebra & Differential Equations

4

MATH 2250

Thermodynamics I Differential Equations & Linear Algebra

4

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Snow College: Brian Newbold, SCNCE 205, (435) 283-7515 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725, www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL & ENVIRONMENTAL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Southern Utah University to satisfy preCivil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

SUU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

1

ENGL 2010 ENGR 2250 & ENGR 2225

Intermediate Writing Electric Circuits

3 3

WRTG 2010

General Chemistry Lab I Intermediate Writing: Academic Writing & Research

Electric Circuits Lab

1

ECE 2200

Electrical & Computer Engineering for Civil Engineers

1.5

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2215

Physics for Sci & Engrs I Lab

1

PHYS 2215

1

ENGR 1010

Engineering in the 21st Century

3

CVEEN 1000

Physics Lab for Sci & Engrs I Intro to Civil & Environmental Engineering

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

1

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

MATH 2210

4

MATH 2210

4

MATH 2250

Calculus III Differential Equations & Linear Algebra

3

MATH 2250

Calculus III Linear Algebra & Differential Equations

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Physics for Scientists & Engineers II

4

CSIS 1400

Fundamentals of Programming

3

CS 1000

Engineering Computing

3

Update 08/2016 Information is subject to change.

3

2

4

CR

U OF U MAJOR REQUIREMENT SATISFIED

Computer-Assisted Drafting

3

MG EN 1050

Technical Communications

2

ENGR 2010

Statics

3

CVEEN 2010

Statics

3

ENGR 2030 ENGR 2140 ENGR 2145

Dynamics Strength of Materials Strength of Materials Lab

3 3 1

ME EN 2030

Particle Dynamics

3

CVEEN 2140

Strength of Materials

3

ENGR 3000

Thermodynamics

3

ME EN 2300

2

ENGR 3010

Materials Science Engineering

3

MSE 2160

Thermodynamics I Elements of Materials Science & Engineering

ENGR 4050

Structural Analysis

3

CVEEN 3210

Structural Analysis I

3

SUU COURSE

COURSE TITLE

ENGR 1030

U OF U COURSE TITLE

CR

3

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Southern Utah University: Student Development Center, (435) 586-5419 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, 2131, (801) 587-7725 www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at USU.USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major. USU/USUE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

1

CHEM 1215

3

WRTG 2010

ENGR 1000

Intro to Engineering Design

2

CVEEN 1000

General Chemistry Lab I Intermediate Writing: Academic Writing & Research Intro to Civil & Environmental Engineering

1

ENGL 2010

Chemical Principles Lab I Intermediate Writing: Research Writing in a Persuasive Mode

MATH 1210

4

MATH 1210

Calculus I

4

PHYS 2210

Calculus I General Physics: Science & Engineering I

4

PHYS 2210

4

PHYS 2215

Physics for Scientists & Engr Lab I

1

PHYS 2215

Physics for Scientists & Engineers I Physics Lab for Scientists & Engrineers I

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Chemical Principles Lab II

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry Lab I

1

CHEM 2315

Organic Chemistry Lab I

1

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

MATH 2210

3

MATH 2210

4

MATH 2250

4

PHYS 2220

Calculus III Differential Equations & Linear Algebra Physics for Scientists & Engineers II

3

PHYS 2220

Multivariable Calculus Linear Algebra & Differential Equations General Physics: Science & Engineering II

CS 1400

Intro to Computer Science – CS 1

3

CS 1000

Engineering Computing

3

CEE 2240

Engineering Surveying

3

MG EN 2400

Introductory Surveying

3

ENGR 2010

Engineering Mechanics Statics

3

CVEEN 2010

Statics

3

MATH 2250

Update 08/2016 Information is subject to change.

3 2

1

4 4

USU/USUE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

ENGR 2030

Engineering Mechanics Dynamics

3

ME EN 2030

Particle Dynamics

3

ENGR 2140

Strength of Materials

3

CVEEN 2140

Strength of Materials

3

ENGR 2270

Computer Engineering Drafting

2

MG EN 1050

Technical Communications

2

MAE 2300

Thermodynamics I

3

CH EN 2300

2

MAE 2160

Material Science

3

MSE 2160

Thermodynamics I Elements of Materials Science & Engineering

1.5

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center 304 (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725, www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL & ENVIRONMENTAL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Utah Valley University to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at UVU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

CR

U OF U MAJOR REQUIREMENT SATISFIED

Intermed Writing - Science/Tech Intermed Writing – Hum/Soc Sci

3 3

WRTG 2010

Intermediate Writing: Academic Writing & Research

3

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

MATH 1210

Calculus I

5

MATH 1210

4

ENGR 1000

Introduction to Engineering

3

CVEEN 1000

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

Calculus I Intro to Civil & Environmental Engineering Physics for Scientists & Engineers I

PHYS 2215

Physics for Sci & Engrs I Lab

1

PHYS 2215

Physics Lab for Sci & Engrs I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry II Lab

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

CHEM 2315

Organic Chemistry I Lab

1

CHEM 2315

Organic Chemistry Lab I

1

MATH 1220

Calculus II

5

MATH 1220

Calculus II

4

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210

3

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Calculus III Differential Equations & Linear Algebra Physics for Scientists & Engineers II

UVU COURSE ENGL 2020 or ENGL 2010

COURSE TITLE

Update 08/2015 Information is subject to change.

MATH 2250

U OF U COURSE TITLE

CR

2 4

4 4

UVU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

CS 1400

Fundamentals of Programming

3

CS 1000

Engineering Computing

3

EGDT 1040

Computer Aided Drafting – AutoCAD

3

MG EN 1050

Technical Communications

2

EGDT 1400

Surveying

4

MG EN 2400

Introductory Surveying

3

ENGR 2010

Engineering Statics

3

CVEEN 2010

Statics

3

ENGR 2030

Engineering Dynamics

3

ME EN 2030

Particle Dynamics

3

ENGR 2140

Mechanics of Materials

3

CVEEN 2140

Strength of Materials

3

ENGR 2300

Engineering Thermodynamics

3

CH EN 2300

Thermodynamics I

2

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah Valley University: Fred Orchard, CS 635, (801) 863-6238, [email protected] University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725 www.civil.utah.edu

Update 08/2015 Information is subject to change.

CIVIL & ENVIRONMENTAL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Weber State University to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at Weber State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

WEBER COURSE

COURSE TITLE

CHEM 1210

Principles of Chemistry I

5

U OF U MAJOR REQUIREMENT SATISFIED CHEM 1210 CHEM 1215

ENGL 2010

Intermediate College Writing

3

WRTG 2010

MATH 1210

4

PHYS 2210

Calculus I Physics for Scientists & Engineers I

MATH 1210 PHYS 2210 PHYS 2215

ENGR 1000

Intro to Engineering

2

CHEM 1220 CHEM 2310 CHEM 2315

Principles of Chemistry II Organic Chemistry I Organic Chemistry I Lab

MATH 1220 MATH 2210

CR

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I Intermediate Writing: Academic Writing & Research

CR 4 1 3 4 4 1

5 4 1

CVEEN 1000 CHEM 1220 CHEM 1225 CHEM 2310 CHEM 2315

Calculus I Physics for Scientists & Engineers I Physics Lab for Sci & Engrs I Intro to Civil & Environmental Engineering General Chemistry II General Chemistry Lab II Organic Chemistry I Organic Chemistry Lab I

Calculus II

4

MATH 1220

Calculus II

4

4

MATH 2210

3

4

MATH 2250

Calculus III Differential Equations & Linear Algebra

5

PHYS 2220

Physics for Sci & Engineers II

4

DET 1040

Calculus III Linear Algebra & Differential Equations Physics for Scientists & Engineers II Intro to Residential Architecture (AUTOCAD)

3

MG EN 1050

Technical Communications

2

ENGR 2010

Statics

3

CVEEN 2010

Statics

3

ENGR 2080

Dynamics

4

ME EN 2030

Particle Dynamics

3

MATH 2250 PHYS 2220

Update 08/2016 Information is subject to change.

5

2 4 1 4 1

4

WEBER COURS

COURSE TITLE

CR 3

ENGR 2210

Strength of Materials Materials Science & Engineering Electrical Engineering for NonMajors

ENGR 2300

Thermodynamics I

ENGR 2140 ENGR 2160

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE Strength of Materials

CVEEN 2140

CR 3

3

MSE 2170

4

ECE 2200

Elements of Materials Science & Engineering Electrical & Computer Engineering for Civil Engineers

3

CH EN 2300

Thermodynamics I

1.5

1.5 2

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Civil Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Weber State University: Academic Advisement, (801) 626-6752 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr. Romero, Director of Undergraduate Advising, MCE 2131, (801) 587-7725 www.civil.utah.edu

Update 08/2016 Information is subject to change.

CIVIL & ENVIRONMENTAL ENGINEERING Civil Engineering is considered to be the oldest engineering field. Throughout history, civil engineers have designed and built facilities that have advanced civilization and provided for a higher standard of living. Civil engineering is about community service, development, and improvement. IT involves the conception, planning, design, construction and operation of facilities essential to modern life, ranging from transit systems to offshore structures to space satellites. Civil engineers are problem solvers, meeting the challengers of pollution, traffic congestion, drinking water and energy needs, urban redevelopment and community planning. 

Admission Criteria: Once the pre-civil engineering requirements have been completed, you must apply for Major Status. Admission to intermediate status requires completion of at least 9 credit hours from select courses with a minimum Engineering GPA of 2.5.



Important Information: Courses required for this major may be repeated only once. If a course is repeated, only the second grade received is used in the GPA calculation. If the student receives a grade of W (withdrawal), I (incomplete), or V (audit), the course is considered taken.



Transferring Courses: The following courses may be taken at Westminster College to satisfy pre-Civil Engineering and Major Civil Engineering course requirements. There are additional requirements not offered at Westminster that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

WESTMINSTER COURSE

COURSE TITLE

CR

CHEM 111

Principles of Chemistry I & Lab

4

MATH 201

4

PHYS 211

Calculus I Physics for Scientists & Engineers I & Lab

ENGL 110

Composition & Research

4

CHEM 112

Principles of Chemistry II & Lab

4

CHEM 303

Organic Chemistry I & Lab

MATH 202 MATH 203 MATH 311 & MATH 363

U OF U MAJOR REQUIREMENT SATISFIED CHEM 1210 CHEM 1215

CR 4 1 4 4 1

4

WRTG 2010 CHEM 1220 CHEM 1225 CHEM 2310 CHEM 2315

Calculus I Physics for Scientists & Engineers I Physics Lab for Sci & Engrs I Intermediate Writing: Academic Writing & Research General Chemistry II General Chemistry Lab II Organic Chemistry I Organic Chemistry Lab I

Calculus II

4

MATH 1220

Calculus II

4

4 4 4

MATH 2210

4

MATH 2250 PHYS 2220 PHYS 2225

Calculus III Differential Equations & Linear Algebra Physics for Scientists & Engineers II Physics Lab Sci & Engineers II

3

PHYS 212

Multivariate Calculus Linear Algebra II Differential Equations Physics for Scientists & Engineers II & Lab

CMPT 201

Intro to Computer Science

4

CS 1000

Engineering Computing

3

4

MATH 1210 PHYS 2210 PHYS 2215

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I

3 4 1 4 1

4 4 1

Please see website for information on Major Status requirements. www.civil.utah.edu/ug_forms

Note: Students should obtain advising regarding general education requirements specific to Civil Engineering majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.

Update 08/2016 Information is subject to change.



If you have further questions regarding this major, you may contact: Westminster College: General Advising, (801) 832-2280 University of Utah: Alexi Crabb, Academic Advisor, 2012 MCE, (801) 581-6931 Dr Romero, Director of Undergraduate Advising MCE 2131, (801) 587-7725, www.civil.utah.edu

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to soft ware engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be taken twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at BYU to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at BYU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: C S 142

Intro to Computer Programming

3

CS 1410

Intro to Computer Science I

4

C S 235

Data Structures & Algorithms

3

CS 2420

Intro to Computer Science II

4

EC EN 240

Circuit Analysis & Laboratory

4

ECE 1250 ****

Electrical and Computer Eng Design

4

MATH 112

Calculus 1

4

MATH 1210

Calculus I

4

MATH 113

Calculus 2

4

MATH 1220

Calculus II

4

PHSCS 121

Principles of Physics 1

3

PHYS 2210

Physics for Scientists & Engineers I

4

OTHER COMPUTER ENGINEERING REQUIREMENTS/ELECTIVES: BIO 100

Principles of Biology

3

BIOL 1210

Intro Biology

4

CHEM 105

General College Chemistry

4

CHEM 1210

General Chemistry I

4

C S 236

Discrete Structures

3

CS 2100

Discrete Structures

3

EC EN 340

Electronic Circuit Design I

4

ECE 2280

Fund of Engineering Electronics

4

EC EN 360

Electromagnetic Fields & Waves

3

ECE 3300

Fund E&M and Trans Lines

4

EC EN 380 EC EN443 EC EN 445

Signals and Systems Communication & Power Circuits Intro to Mixed-Signal VLSI

5 4 4

ECE 3500

Fund Signals & Systems

4

ECE 3110

Engineering Electronics II

4

EC EN 483

Design of Control Systems

4

ECE 3510

Intro to Feedback Systems

4

EC EN 487

Intro to Discrete Time Signal Proc

4

ECE 5530

Digital Signal Processing

3

MATH 303

Mathematics for Engineering 2

4

MATH 2270**

Linear Algebra

4

MATH 314

Calculus of Several Variables

3

MATH 2210

Calculus III

3

MATH 334 PHSCS 123 PHSCS 220

Ordinary Differential Equations Intro Waves, Optics & Thermo Intro Electricity & Magnetism

3 3 3

MATH 2280

Intro to Differential Equations

4

PHYS 2220

Physics for Scientists & Engineers II

4

Update 08/2016 Information is subject to change.

BYU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

PHSCS

Modern Physics 3 ECE 3740 Intro Quantum & Relativity ** Math 2270 & 2280 together are equivalent to MATH 2250 *** Students must also take a MATLAB course. **** EC EN 240 also clears ECE 2240 requirement but student must take additional four credit hours of technical electives.

CR 3



While attending BYU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Brigham Young University: Electrical and Computer Engineering Student Advisor, (801)422-3641 University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to software engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Course: The following courses may be taken at BYU-Idaho to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at BYU-Idaho that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU-IDAHO COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: CS 165

Object Oriented Software Development

3

CS 1410

Intro to Computer Science I

4

CS 235

Data Structures

3

CS 2420

Intro to Computer Science II

4

FDMAT 112

Calculus I

4

MATH 1210

Calculus I

4

MATH 113

Calculus II

3

MATH 1220

Calculus II

4

PH 121

Principles of Physics I

3

PHYS 2210

4

FDENG 201

Advanced Writing & Critical Thinking

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

ECEN 150

Electrical Circuit Analysis I

3

ECE 1250***

Electrical & Computer Engr Design

4

3

OTHER COMPUTER ENGINEERING MAJOR REQUIREMENTS/ELECTIVES BIO 180 or CHEM 105

Intro to Biology I General Chemistry

4 4

BIOL 1210 or CHEM 1210**

Principles of Biology General Chemistry I

4 4

CS 237

Discrete Mathematics I

3

CS 2100

Discrete Structures

3

PH 220

Principles of Physics III

3

PHYS 2220

Physics for Scientists & Engineers II

4

ECEN 250

Electric Circuit Analysis 2

3

ECE 2240

Intro to Electric Circuits

4

ECEN 350

Electronic Devices & Circuits

3

ECE 2280

Fund of Engineering Electronics

4

Fund of Signals & Systems

4

ECEN 380 Signals & Systems 3 ECE 3500 ** Students may take either CHEM 1210 or BIO 1210 to meet requirement. *** Students must also take a Matlab course

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Computer Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: BYU-Idaho: Career & Academic Advising, Kimball 250, (208) 496-1167 University of Utah: Computer Engineering Academic Advisor, 3313MEB, (801) 581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to soft ware engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Dixie State University to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at Dixie that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. DIXIE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: CS 1400

Fundamentals of Programming

3

CS 1030*

Intro to Computer Science

3

CS 1410

Object Oriented Programming

3

CS 1410

Intro to Computer Science I

4

CS 2420

Intro to Algorithms/Data Structures

3

CS 2420

4

ENGL 2010

Intermediate Writing

3

WRTG 2010

Intro to Computer Science II Intermediate Writing: Academic Writing & Research

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

PHYS 2210 ENGR 2250 ENGR2255

Physics for Scientists & Engineers I Electrical Circuits Electrical Circuits Lab

4 3 1

PHYS 2210

Physics for Scientists & Engineers I

4

ECE 1250***

Electrical & Computer Engr Design

4

3

OTHER COMPUTER ENGINEERING MAJOR REQUIREMENTS/ELECTIVES MATH 2210 MATH 2270 MATH 2280

Multivariable Calculus Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210 MATH 2270 MATH 2280**

Calculus III Linear Algebra Intro to Differential Equations

3 4 4

MATH 3310

Discrete Mathematics Physics for Scientists & Engineers II Principles of Chemistry I

3

CS 2100

Discrete Structures Physics for Scientists & Engineers II General Chemistry I

3

Principles of Biology

4

PHYS 2220 4 PHYS 2220 CHEM 1210 4 CHEM 1210 or or BIOL 1610 Principles of Biology I 4 BIOL 1210**** *U of U students who pass exam may bypass CS 1030 and proceed to CS 1410 ** MATH 2270 & 2280 together are equivalent to MATH 2250 *** Students must also take a MATLAB course. Update 08/2016 Information is subject to change.

4 4

**** Students may take either CHEM 1210 or BIO 1210 to meet requirement.



Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Dixie State University: Victor Hasfurther, (435) 652-7861, [email protected] University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to soft ware engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at LDS Business College to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at LDS Business College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

LDSBC COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

3

WRTG 2010

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: ENG 201



Intermediate College Writing

Intermediate Writing: Academic Writing & Research

3

LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to soft ware engineering (algorithms, data structures, and operating systems), as well as computer architecture 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Salt Lake Community College to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at SLCC that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CR

U OF U MAJOR REQUIREMENT SATISFIED

PRE-MAJOR REQUIREMENTS: Fundamentals of CS 1400 Programming

3

CS 1030*

Intro to Computer Science

3

CS 1410

Object Oriented Programming

4

CS 1410

Intro to Computer Science I

4

CS 2420 EE 1020 or ENGR1030 or ENGR 1040 & EE 1270

Intro: Algorithms/Data Struct EE Prob Solving with Matlab Matlab Problem Solving Engineering Computation

4 1 3 3

CS 2420

Intro to Computer Science II

4

ECE 1250

Electrical & Computer Engr Design

Intro Electrical Circuits I Physics for Scientists & Engineers I Intermediate Writing Technical Writing

4

SLCC COURSE

PHYS 2210 ENGL 2010 or ENGL 2100

COURSE TITLE

4 3 3

CR

1 4 PHYS 2210 WRTG 2010

OTHER COMPUTER ENGINEERING MAJOR REQUIREMENTS/ELECTIVES BIOL 1610 or College Biology I 4 BIOL 1210 or CHEM 1210 General Chemistry I 4 CHEM 1210** Physics for Scientists & PHYS 2220 Engineers II 4 PHYS 2220 MATH 2210

U OF U COURSE TITLE

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

4

Principles of Biology General Chemistry I Physics for Scientists & Engineers II

4 4

3

3

4

3

MATH 2210

MATH 2250

Multivariate Calculus Linear Algebra & Differential Equations

3

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

EE 2260

Fund of Electrical Circuits II

4

ECE 2240

Intro to Electric Circuits

1-4

EE 2280

Fund of Eng Electronics

4

ECE 2280

Fund of Engineering Electronics

4

CS 2430 Discrete Structures 3 CS 2100 Discrete Structures *U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410 ** Students may take either CHEM 1210 or BIO 1210 to meet requirement.

Update 08/2015 Information is subject to change.

4

3



Salt Lake Community College offers an associate’s of Pre-Engineering degree with a Computer Engineering emphasis, which includes courses required for the Computer Engineering degree at the U. Note: The Associates in Pre-Engineering does not complete general education requirements for a bachelor’s degree at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Salt Lake Community College: Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-9574858, [email protected] University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2015 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to software engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Snow College to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at Snow that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. SNOW COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: CS 1400 CS 1410 CS 1415

Programming Fundamentals Object Oriented Programming Object Oriented Programming Lab

3 3 1

CS 1030*

Intro to Computer Science

3

CS 1410

Intro to Computer Science I

4

CS 2420

Data Structures & Algorithms

3

CS 2420

Intro to Computer Science II

4

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

4

ENGL 2010 ENGR 2250 & ENGR 2255

Intermediate Research Writing Analog Circuits

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

3 1

ECE 1250**

Electrical & Computer Engr Design

4

OTHER COMPUTER ENGINEERING MAJOR REQUIREMENTS/ELECTIVES: CHEM 1210 or Principles of Chemistry 4 CHEM 1210 or BIOL 1010 General Biology 3 BIOL 1210***

General Chemistry I Principles of Biology

4 4

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Physics for Scientists & Engineers II

4

MATH 1630

Discrete Mathematics

3

CS 2100

Discrete Structures

3

Calculus III Ordinary Differential Equations & Linear Algebra

3

Analog Circuits Lab

MATH 2210 Multivariable Calculus 3 MATH 2210 MATH 2270 Linear Algebra 3 MATH 2280 Differential Equations 3 MATH 2250 *U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410

Update 08/2016 Information is subject to change.

3

4

** Students must also take a MATLAB course. *** Students may take either CHEM 1210 or BIO 1210 to meet requirement.



Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Snow College, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Snow College: Garth Sorensen, SCNCE 303, (435) 283-7531 University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to soft ware engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Southern Utah University to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

SUU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CSIS 1400

Fundamentals of Programming

3

CS 1030*

Intro to Computer Science

3

CSIS 1410

Object Oriented Programming

3

CS 1410

Intro to Computer Science I

4

CSIS 2420

Intro to Algorithms & Data Structure

3

CS 2420

Intro to Computer Science II

4

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

4

ENGL 2010 ENGR 2250 ENGR 2255

Intermediate Writing Electric Circuits Electric Circuits Lab

3 3 1

WRTG 2010

Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

ECE 1250**

Electrical & Computer Engr Design

4

3

3

OTHER COMPUTER ENGINEERING REQUIREMENTS/ELECTIVES: MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra with Applications Differential Equations

4 3 3

MATH 2210 MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

MATH 1630

Discrete Mathematics

3

CS 2100

Discrete Structures

3

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Physics for Scientists & Engineers II

4

CHEM 1210 Principles of Chemistry I 4 CHEM 1210 General Chemistry I *U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410 ** Students must also take a Matlab course.



4

4

While attending SUU, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Engineering majors at the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Southern Utah University: Sharon Brown, (435) 586-5420, TH 118, [email protected] University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to software engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at USU/USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. USU/USUE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CS 1400

Intro to Computer Science

3

CS 1030*

Intro to Computer Science

3

CS 1410

Intro to Computer Science-CS 2

3

CS 1410

Intro to Computer Science I

4

CS 2420

Algorithms & Data Structures-CS 3

3

CS 2420

Intro to Computer Science II

4

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II General Physics: Science & Engineering I

4

MATH 1220

Calculus II

4

4

PHYS 2210

Physics for Scientists & Engineers I

4

Electrical Circuits I Intermediate Writing: Research Writing in a Persuasive Mode

3

ECE 1250**

4

3

WRTG 2010

Electrical & Computer Engr Design Intermediate Writing: Academic Writing & Research

3

PHYS 2210 ECE 2250 ENGL 2010

3

OTHER COMPUTER ENGINEERING REQUIREMENTS/ELECTIVES: MATH 2210

Multivariable Calculus Linear Algebra & Differential Equations

3

MATH 2210

4

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

Discrete Mathematics General Physics: Science & Engineering II Principles of Chemistry I

3

CS 2100

Discrete Structures

3

4 4

Physics for Scientists & Engineers II General Chemistry I

4 4

Biology I

4

PHYS 2220 CHEM 1210 or BIOL 1210***

4

ECE 3410

Microelectronics I

3

ECE 2280

Principles of Biology Fundamentals of Engineering Electronics

ECE 2290

Electrical Circuits 2

3

ECE 2240

Intro to Electric Circuits

1-4

ECE 5440

Analog VLSI I

3

ECE 3110

Engineering Electronics II

4

ECE 5410

Semiconductor Physics

3

ECE 3200

Intro to Semiconductor Device Phys

3

MATH 2250 MATH 3310 PHYS 2220 CHEM 1210 or BIOL 1610

Update 08/2016 Information is subject to change.

4

4

CR

U OF U MAJOR REQUIREMENT SATISFIED

3

ECE 3620 & ECE 3640

Electromagnetics I Continuous- Time Systems & Signals Discrete- Time Systems & Signals

ECE 5310

USU/USUE COURSE

ECE 3300

U OF U COURSE TITLE Fund of Electromagnetics & Transmission Lines

4

3 3

ECE 3500

Fund of Signals & Systems

4

Control Systems

3

ECE 3510

Intro to Feedback Systems

4

ECE 5850

Antennas I

3

ECE 5324

Antenna Theory & Design

3

ECE 5630

Digital Signals & Image Processing

3

ECE 5530

Digital Signal Processing

3

ECE 3870

COURSE TITLE

ECE 5440 Analog VLSI I 3 ECE 5720 Analog Integrated Circuit Design *U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410 ** Students must also take a MATLAB course *** Students may take either CHEM 1210 or BIO 1210 to meet requirement.

CR

3



While attending USU/USUE, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center 304 (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to software engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Utah Valley University to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at UVU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. UVU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: CS 1400

Fundamentals of Programming

3

CS 1030*

Intro to Computer Science

3

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

5

MATH 1220

Calculus II

4

PHYS 2210 ENGL 2010 or ENGL 2020

Physics for Scientists & Engineers I Intermediate Writing – Hum/SS Intermediate Writing – Sci/Tech

4 3 3

PHYS 2210

4

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

CS 1410

Object-Oriented Programming Intro to Algorithms & Data Structures Computer Engr Prob Solving Matlab Circuit Theory Circuit Theory Lab

3

CS 1410

Intro to Computer Science I

4

3 1 3 1

CS 2420

Intro to Computer Science II

4

ECE 1250

Electrical & Computer Engineering Design

4

General Chemistry I Principles of Biology

4 4 3

CS 2420 EENG 1020 & EENG 2250 & EENG 2255

OTHER COMPUTER ENGINEERING MAJOR REQUIREMENTS/ELECTIVES: CHEM 1210 or Principles of Chemistry I 4 CHEM 1210 or BIOL 1010 General Biology 3 BIOL 1210**

3

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210

MATH 3400

Partial Differential Equations

3

MATH 3150

Calculus III Ordinary Differential Equations & Linear Algebra Partial Differential Eqns for Sci & Eng

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Physics for Scientists & Engineers II

4

CS 2300

Discrete Structures I Applied Eng Probability and Statistics

3

CS 2100 CS 3130/ECE 3530

Discrete Structures

3

Engineering Probability and Statistics

3

ECE 3710

3

MATH 2250

ECE 3770 Signals and Systems 3 ECE 3500 Fundamentals of Signals & Systems *U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410 ** Students may take either CHEM 1210 or BIO 1210 to meet requirement.

Update 08/2016 Information is subject to change.

4 2

4



Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Engineering at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah Valley University: Fred Orchard, CS 635, (801) 863-6238, [email protected] University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to software engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Weber State University to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at Weber State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

WEBER COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CS 1400

Fundamentals of Programming

4

CS 1030*

Intro to Computer Science

3

CS 1410

4

CS 1410

Intro to Computer Science I

4

CS 2420

Object-Oriented Programming Intro to Data Structures & Algorithms

4

CS 2420

Intro to Computer Science II

4

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

4

MATH 1220

Calculus II

4

PHYS 2210

Calculus II Physics for Scientists & Engineers I

5

PHYS 2210

4

ENGL 2010

Intermediate College Writing

3

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

EE 1270

Intro to Electrical Circuits

4

ECE 1250**

Electrical & Computer Engr Design

4

Discrete Structures

3 3

OTHER COMPUTER ENGINEERING REQUIREMENTS/PREREQUISITES: Discrete Mathematics Applied MATH 1630 to Computing 3 CS 2100 MATH 2210

3

Calculus III Linear Algebra & Differential Equations

4

MATH 2210

4

MATH 2250

3

MATH 3150

PHYS 2220

Boundary Value Problems Physics for Scientists & Engineers II

Calculus III Ordinary Differential Equations & Linear Algebra Partial Differential Eqns for Sci & Eng

5

PHYS 2220

Physics for Scientists & Engineers II

4

CHEM 1210

Principles of Chemistry I

5

CHEM 1210

General Chemistry I

4

EE 2260

Fund of Electrical Circuits

4

ECE 2240

Intro to Electric Circuits

1-4

EE 3120

Microelectronics II Advanced Semiconductor Devices

4

ECE 2280

Fund of Engineering Electronics

4

3

ECE 3200

Intro Semiconductor Device Physics

3

MATH 2250 MATH 3710

EE 6130

Update 08/2016 Information is subject to change.

4 2

WEBER COURSE

CR

U OF U MAJOR REQUIREMENT SATISFIED

EE 3310

Electromagnetics

4

ECE 3300

U OF U COURSE TITLE Fund of Electromagnetics and Transmission Lines

EE 3210

Signals and Systems

4

ECE 3500

Fundamentals of Signals and Systems

4

EE 4100

Control Systems

4

ECE 3510

Intro to Feedback Systems

4

EE 4510

Power Systems

4

ECE 3600

Power Systems

3

EE 4210

Signal Processing

3

ECE 5530

Design Digital Signal Processing

3

COURSE TITLE

CR 4

*U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410 ** Students must also take a MATLAB course



While attending Weber State, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Weber State University: Dr. Kirk Hagen, Pre-Engineering Advisor, ET 236C, (801) 626- 6998, [email protected] University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801) 581-4657

Update 08/2016 Information is subject to change.

COMPUTER ENGINEERING The field of computer engineering combines computer science and electrical engineering as they relate to the design, implementation, and operation of digital computers. The primary emphasis is on the engineering design of computers and computer-controlled electronic hardware. The discipline draws on the aspects of electrical engineering relating to electronic (analog and digital) circuits and systems, elements of computer science that relate to soft ware engineering (algorithms, data structures, and operating systems), as well as computer architecture. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status. Applications for admission are reviewed at the end of each semester. Admission is based on G.P.A. in pre-major classes only. To be considered for admission to full major status, a student must have a cumulative grade point average of 2.50 or higher. An average GPA of at least 2.8 and a minimum grade of C- is required in all pre-major courses. Courses required for this major may only be registered for twice. If a course is repeated, only the second grade received is used in the GPA calculation.



Transferring Courses: The following courses may be taken at Westminster College to fulfill requirements for the Computer Engineering degree at the U. There are additional requirements not offered at Westminster that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

WESTMINSTER COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CMPT 201

Intro to Computer Science

4

CS 1030*

Intro to Computer Science

3

CMPT 202

Intro to Data Structures

4

CS 1410

Intro to Computer Science I

4

CMPT 306

Algorithms & Data Structures

4

CS 2420

Intro to Computer Science II

4

MATH 201

Calculus I

4

MATH 1210

Calculus I

4

MATH 202

4

MATH 1220

Calculus II

4

PHYS 211

Calculus II Physics for Scientists & Engineers I & Lab

4

PHYS 2210

4

ENGL 110

Composition & Research

4

WRTG 2010

Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

OTHER COMPUTER ENGINEERING REQUIREMENTS/ELECTIVES: Physics for Scientists & PHYS 212 Engineers II & Lab 4 PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 301

Introduction to Modern Physics

3

ECE 3740

Into Quantum & Relativity

3

MATH 210

Discrete Mathematics I

4

CS 2100

Discrete Structures

3

Calculus III Princ of Biology General Chemistry I

3 4 4

MATH 203 Multivariate Calculus 4 MATH 2210 BIOL 105 or Princ of Biology I & Lab 4 BIOL 1210 or CHEM 111 Princ of Chemistry I & Lab 4 CHEM 1210** *U of U students who pass an exam may bypass CS 1030 and proceed to CS 1410 ** Students may take either CHEM 1210 or BIO 1210 to meet requirement.



3

While attending Westminster, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Engineering majors at the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Westminster College: General Advising, START Center, Carleson Hall, (801) 8322280 University of Utah: Computer Engineering Academic Advisor, 2666 MEB, (801)581-4657

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, MATH 1210, MATH 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA in pre-major classes of 3.0. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken at BYU to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210 PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: C S 142

Intro to Computer Programming

3

CS 1410

Object-Oriented Programming

4

C S 235

Data Structures & Algorithms Refer to UofU math articulation guide Refer to UofU math articulation guide

3

CS 2420

Algorithms & Data Structures

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

CS 2100

Discrete Structures

3

PHYS 2210

Physics for Scientists & Engineers I

4

** **

OTHER COMPUTER SCIENCE REQUIREMENTS: C S 236 **

Discrete Structures Refer to UofU physics articulation guide

3



While attending BYU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Brigham Young University: Academic Advisement, (801)422-3641 University of Utah: Undergraduate Advisor, 3190 MEB, (801)581-8224

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, MATH 1210, MATH 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA in pre-major classes of 3.0. Space is limited and the GPA requirement may be higher for admission .



Transferring Courses: The following CS courses may be taken at BYU-Idaho to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferable courses for Calculus and Physics 2210 PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU-IDAHO COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS OFFERED AT BYU-IDAHO: CS 165

Object Oriented Software Development

3

CS 1410

Object-Oriented Programming

4

CS 235

Data Structures

3

CS 2420

Algorithms & Data Structures

4

**

Refer to UofU math articulation guide

MATH 1210

Calculus I

4

**

Refer to UofU math articulation guide

MATH 1220

Calculus II

4

CS 2100

Discrete Structures Physics for Scientists & Engineers I

3

OTHER COMPUTER SCIENCE MAJOR REQUIREMENTS: CS 237

Discrete Mathematics I

**

Refer to Uof U phys articulation guide

3

PHYS 2210

4

Note: An associate’s degree does not complete general education requirements for a bachelor’s degree at the U of U. Students should obtain advising regarding general education requirements specific to Computer Science majors at the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: BYU-Idaho: Career & Academic Advising, Kimball 250, (208) 496-1167 University of Utah: Undergraduate Advisor, 3190 MEB, (801)581-8224

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, MATH 1210, MATH 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA in pre-major classes of 3.0. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken at Dixie State University to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210 PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

DIXIE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS OFFERED AT DIXIE: CS 1410

Object Oriented Programming

3

CS 1410

Object-Oriented Programming

4

CS 2420

Intro to Algorithms/Data Structures Refer to UofU math articulation guide Refer to UofU math articulation guide

3

CS 2420

Algorithms & Data Structures

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

Discrete Structures

3

Physics for Scientists & Engineers I

4

** **

OTHER COMPUTER SCIENCE MAJOR REQUIREMENTS: MATH 3310 Discrete Mathematics 3 CS 2100 Refer to UofU phys articulation ** guide PHYS 2210



Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Computer Science at the U of U. Students should obtain advising regarding general education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Dixie State University: Advisement Center, (435) 652-7690 University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, MATH 1210, MATH 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission. Transferring Courses: No courses are currently listed as transferring from LDS Business College to satisfy specific requirements for this major.



LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Computer Science at the U of U. Students should obtain advising regarding general education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks. 

Admissions Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, MATH 1210, MATH 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken at Salt Lake Community College to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210 PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

SLCC COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: CSIS 1410

Object Oriented Programming

4

CS 1410

Object-Oriented Programming

4

CSIS 2420

Algorithms & Data Structures Refer to UofU math articulation guide Refer to UofU math articulation guide

4

CS 2420

Algorithms & Data Structures

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

CS 2100

Discrete Structures

3

PHYS 2210

Physics for Scientists & Engineers I

4

** **

OTHER COMPUTER SCIENCE MAJOR REQUIREMENTS: CSIS 2430 **



Discrete Structures Refer to UofU plys articulation guide

3

Salt Lake Community College offers an associate’s degree in Pre-Engineering (Computer Science), which includes courses required for the Computer Science degree at the U. Note: The Associates in Pre-Engineering does not complete general education requirements for bachelor’s degree at the U of U. Students should obtain advising regarding general education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Salt Lake Community College: Gloria Rivera, 801.957.4276, BB 107R Taylorsville Redwood Campus, [email protected]. University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2015 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks. 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, MATH 1210, MATH 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken at Snow College to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transfterrable courses for Calculus and Physics 2210. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CR

U OF U MAJOR REQUIREMENT SATISFIED

PRE-MAJOR REQUIREMENTS: CS 1410 Object-Oriented Programming CS 1415 Object-Oriented Programming Lab

3 1

CS 1410

Object-Oriented Programming

4

CS 2420

Data Structures & Algorithms

3

CS 2420

Algorithms & Data Structures

4

**

Refer to UofU math articulation guide

MATH 1210

Calculus I

4

**

Refer to UofU math articulation guide

MATH 1220

Calculus II

4

CS 2100

Discrete Structures

3

PHYS 2210

Physics for Scientists & Engineers I

4

SNOW COURSE

COURSE TITLE

U OF U COURSE TITLE

CR

OTHER COMPUTER SCIENCE MAJOR REQUIREMENTS: MATH 1630

Discrete Math

**

Refer to UofU phys articulation guide



3

Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Snow College, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Computer Science at the U of U. Students should obtain advising regarding general education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Snow College: Garth Sorensen, BUSB 207, (435) 283-7531

Update 08/2016 Information is subject to change.

University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, Math 1210, Math 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken at SUU to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. SUU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CSIS 1410

Object Oriented Programming

3

CS 1410

Object-Oriented Programming

4

CSIS 2420

Intro to Algorithms & Data Structures Refer to UofU math articulation guide Refer to UofU math articulation guide

3

CS 2420

Algorithms & Data Structures

4

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

** **

OTHER COMPUTER SCIENCE REQUIREMENTS: CSIS 3500

Advanced Computer Architecture

3

CS 3810

Computer Organization

4

MATH 1630

Discrete Mathematics

3

CS 2100

Discrete Structures

3

**

Refer to UofU phys articulation guide

PHYS 2210

Physics for Scientists & Engineers I

4



While attending SUU, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Southern Utah University: Tod Amon, (435) 586-7905 University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, Math 1210, Math 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

USU/USUE COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CS 1410

Intro to Computer Science-CS 2

3

CS 1410

Object-Oriented Programming

4

CS 2420

Algorithms & Data Structures-CS 3

3

CS 2420

Algorithms & Data Structures

4

**

Refer to UofU math articulation guide

MATH 1210

Calculus I

4

**

Refer to UofU math articulation guide

MATH 1220

Calculus II

4

OTHER COMPUTER SCIENCE REQUIREMENTS: Computer Systems Organization & CS 3810 Architecture II

3

CS 3810

Computer Organization

4

MATH 3310

Discrete Mathematics

3

CS 2100

Discrete Structures

3

**

Refer to UofU phys articulation guide

PHYS 2210

Physics for Scientists & Engineers I

4



While attending USU/USUE, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Utah State University: Myra Cook, MAIN 414, (435) 797-2451, [email protected] or The University Advising Center, Taggart Student Center 304 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change.

(435)

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, Math 1210, Math 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

UVU COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PRE-MAJOR REQUIREMENTS: CS 1410

Object-Oriented Programming

3

CS 1410

Object-Oriented Programming

4

CS 2420

Intro to Algorithms & Data Structures

3

CS 2420

Algorithms & Data Structures

4

**

Refer to UofU math articulation guide

MATH 1210

Calculus I

4

**

Refer to UofU math articulation guide

MATH 1220

Calculus II

4

3

CS 2100

Discrete Structures

3

3

CS 3810

Computer Organization

4

PHYS 2210

Physics for Scientists & Engineers I

4

OTHER COMPUTER SCIENCE MAJOR REQUIREMENTS: CS 2300



CS 4380

Discrete Structures I Advanced/High-Performance Computer Architecture

**

Refer to UofU phys articulation guide

Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may take foreign language credits and/or other transferable electives for the U. Note: An associate’s degree does not complete general education requirements for a bachelor’s degree in Computer Science at the U of U. Students should obtain advising regarding general education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Utah Valley University: Fred Orchard, CS 635, (801) 863-6238, [email protected]

Update 08/2016 Information is subject to change.

University of Utah: Undergraduate Advisor, 3255 MEB, (801) 581-4657

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, Math 1210, Math 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. WEBER COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CS 1410

Object-Oriented Programming

4

CS 1410

Object-Oriented Programming

4

CS 2420

Data Structures & Algorithms

4

CS 2420

Algorithms & Data Structures

4

**

Refer to UofU math articulation

MATH 1210

Calculus I

4

**

Refer to UofU math articulation

MATH 1220

Calculus II

4

OTHER COMPUTER SCIENCE REQUIREMENTS: Discrete Mathematics Applied to Computing MATH 1630 3

CS 2100

Discrete Structures

3

**

PHYS 2210

Physics for Scientists & Engineers I

4

Refer to UofU phys articulation



While attending Weber State, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Weber State University: Academic Advisement, (801) 6266752 University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change.

COMPUTER SCIENCE The Computer Science major is oriented-toward software design and software engineering. The program begins by providing a firm grounding in programming skills, followed by a study of more advanced topics such as analysis of algorithms, programming languages, software engineering computer architecture, operating systems, theoretical computer science, compilers, scientific computation, and computer networks 

Admission Criteria: Any student may be admitted to pre-major status by requesting on their application for admission or applying through the Registrar's Office. In order to become a full major, a student must complete the classes required of pre-majors and then apply for full major status: CS 1410, 2420, Math 1210, Math 1220. Applications for admission are reviewed after Spring and Fall semesters. To apply to full major status, a student must have at least a 3.0 cumulative and pre-major GPA. Space is limited and the GPA requirement may be higher for admission.



Transferring Courses: The following CS courses may be taken to fulfill requirements for the Computer Science degree at the U.



**There are additional requirements that may be taken to fulfill math and physics requirements. See Math and Physics articulation guides for other transferrable courses for Calculus and Physics 2210. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. WESTMINSTER COURSE

COURSE TITLE

CR

U OF U MAJOR REQUIREMENT SATISFIED

U OF U COURSE TITLE

CR

PREMAJOR REQUIREMENTS: CMPT 202

Intro to Data Structures

4

CS 1410

Object Oriented Programming

4

CMPT 306

Algorithms & Data Structures

4

CS 2420

Algorithms & Data Structures

4

**

Refer to UofU math articulation

MATH 1210

Calculus I

4

**

Refer to UofU math articulation

MATH 1220

Calculus II

4

CS 2100

Discrete Structures

3

PHYS 2210

Physics for Scientists & Engineers I

4

OTHER COMPUTER SCIENCE REQUIREMENTS: MATH 210

Discrete Mathematics I

**

Refer to UofU phys articulation

4



While attending Westminster, students may complete the General Education requirements and the courses identified to complete the University requirements, including foreign language credits and/or other transferable electives for the U. Students should obtain advising regarding General Education requirements specific to Computer Science majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. Some additional courses may transfer; please refer to the School of Computing Undergraduate Handbook.



If you have further questions regarding this major, you may contact: Westminster College: General Advising, (801) 832-2280 University of Utah: Undergraduate Advisor, 3190 MEB, (801) 581-8224

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 16 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at BYU to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at BYU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU COURSE EC EN 240****

Circuit Analysis & Lab

4

MATH 112

Calculus 1

MATH 113

U OF U COURSE

ELECTRICAL ENGINEERING REQUIREMENT

U OF U COURSE TITLE

CR

ECE 1250*

Electrical & Computer Engr Design

4

Major Requirement

4

MATH 1210

Calculus I

4

Major Requirement

Calculus 2

4

MATH 1220

Calculus II

4

Major Requirement

PHSCS 121

Intro to Physics 1

3

PHYS 2210

4

Major Requirement

WRTG 150

Writing and Rhetoric

3

WRTG 2010

Physics for Scientists & Engineers i Intermediate Wrtg: Academic Wrtg & Research

3

Major Requirement

C S 142

Intro to Computer Programming

3

CS 1410

Intro to Computer Science I

4

Major Requirement

MATH 303

Mathematics for Engineering 2

4

MATH 2270**

Linear Algebra

4

Major Requirement

MATH 314

Calculus of Several Variables

3

MATH 2210

Calculus III

3

Major Requirement

MATH 334 PHSCS 123 PHSCS 220

Ordinary Differential Equations Intro Waves, Optics & Thermo Intro Electricity & Magnetism

3 3 3

MATH 2280

Intro to Differential Equations

4

Major Requirement

PHYS 2220

Physics for Scientists & Engineers II

4

Major Requirement

EC EN 340

Electronic Circuits Design I

4

ECE 2280

Fund of Engineering Electronics

4

Major Requirement

EC EN 320

3

ECE 3700

Digital Design

4

Major Requirement

EC EN 360

Digital System Design Electromagnetic Fields & Waves

3

ECE 3300

Fund E&M and Trans Lines

4

Major Requirement

EC EN 380 EC EN 443 EC EN 445

Signals and Systems Communication & Power Crcts Intro to Mixed-Signal VLSI

5 4 4

ECE 3500

Fund Signals & Systems

4

Major Requirement

ECE 3110

Engineering Electronics II

4

Major Elective

EC EN 483

Design of Control Systems Intro to Discrete Time Signal Proc

4

ECE 3510

Intro to Feedback Systems

4

Major Elective

4

ECE 5530

Digital Signal Processing

3

Major Elective

Modern Physics

3 4 3

ECE 3740

Intro Quantum & Relativity

3

Major Elective

EC EN 487 PHSCS 222 PHSCS 105 or 111 Or BIO 100

COURSE TITLE

General College Chemistry

CR

CHEM 1210 Or BIOL 1210**

Match/Sci Principles of Biology I 3 Principles of Biology 4 Requirement *Students must also take a Matlab course ** MATH 2270 & 2280 together are equivalent to MATH 2250 ****EC EN 240 also clears ECE 2240 requirements but students must take additional four credit hours of technical electives.

Update 08/2016 Information is subject to change.



While attending BYU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Brigham Young University: Electrical and Computer Engineering Student Advisor, (801) 4224013 University of Utah: Electrical Engineering Academic Advisor, 3108 MEB, (801)581-6941, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5



required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at BYU-Idaho to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at BYU-Idaho that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

BYU-IDAHO COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

ELECTRICAL ENGINEERING REQUIREMENT

ECEN 150

Electric Circuit Analysis I

3

ECE 1250**

Electrical & Computer Engr Design

4

Major Requirement

FDMAT 112

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus II

3

MATH 1220

Calculus II

4

Major Requirement

PH 121

3

PHYS 2210

Physics for Scientists & Engineers I

4

Major Requirement

CS 165

Principles of Physics I Object Oriented Software Development

3

CS 1410

Intro to Computer

4

Major Requirement

ECEN 250

Electric Circuit Analysis 2

4

ECE 2240

Intro to Electric Circuits

4

Major Requirement

ECEN 350

Electronic Devices & Circuits

3

ECE 2280

Fund of Electronics

4

Major Requirement

ECEN 340

Digital System Design

3

ECE 3700

Digital Design

4

Major Requirement

ECEN 390

Electricity and Magnetism

3

ECE 3300

Fund E&M and Transmission Lines

4

Major Requirement

ECEN 380

3

ECE 3500

Fund Signals and Systems

4

Major Requirement

ECEN 470

Signals and Systems Feedback Control of Dynamic Systems

3

ECE 3510

Intro to Feedback Systems

4

Major Elective

ECEN 410

Power Systems

3

ECE 3600

Power Systems

3

Major Elective

ECEN 480

Digital Signal Processing Differential Equations with Linear Algebra Multivariable Vector Calculus

3

ECE 5530

Digital Signal Processing

3

Major Elective

4

MATH 2250

ODE’s & Linear Algebra

4

Major Requirement

3

MATH 2210

3

Major Requirement

4 4

Major Requirement

MATH 316 MATH 214 PH 220 CHEM 105 Or BIO 180



Calculus III Physics for Scientists & Engineers Principles of Physics III 3 PHYS 2220 II General Chemistry I 4 CHEM 1210 General Chemistry I CHEM1215 General Chemistry I Lab Intro to Biology I 4 BIOL 1210 Principles of Biology ** Students may take either CHEM 1210 & 1215 or take BIOL 1210 to meet requirement *** Students must also take a MATLAB course.

4

Math/Sci Requirement

BYU-Idaho offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: BYU-Idaho: College of Physical Science and Engineering Academic Discovery Center, AUS 106C, (208) 496-9880 University of Utah: Electrical Engineering Academic Advisor, 3313 MEB, (801)581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Dixie State University to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at Dixie State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CR

ELECTRICAL ENGINEERING REQUIREMENT

ECE 1250**

U OF U COURSE TITLE Electrical & Computer Engr Design

4

Major Requirement

5

MATH 1210

Calculus I

4

Major Requirement

4

MATH 1220

Major Requirement

4

PHYS 2210

4

Major Requirement

ENGL 2010

Intermediate Writing

3

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

4

PHYS 2210

Calculus II Physics for Scientists & Engineers I

3

Major Requirement

CS 1400

Fundamentals of Programming

3

CS 1030**

Intro to Computer Science

3

Major Requirement

CS 1410

Object Oriented Programming

3

CS 1410

Intro to Computer Science I

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Multivariable Calculus Linear Algebra Ordinary Differential Equations Physics for Scientists & Engineers II Principles of Chemistry I Principles of Chemistry I Lab

3 3 3

MATH 2210 MATH 2270 MATH 2280**

3 4 4

Major Requirement

4 4 1

PHYS 2220 CHEM 1210 CHEM 1215

Calculus III Linear Algebra Intro to Differential Equations Physics for Scientists & Engineers II General Chemistry I General Chemistry Lab I

4

Major Requirement

DIXIE COURSE ENGR 2250 ENGR 2255

COURSE TITLE Electrical Circuits Electrical Circuits Lab

CR 3 1

MATH 1210

Calculus I

MATH 1220

PHYS 2220 CHEM 1210 & 1215 Or BIOL 1610

U OF U COURSE

Principles of Biology I 4 BIOL 1210 Principles of Biology *Students who pass exam may bypass CS 1030 and proceed to CS 1410 ** MATH 2270 & 2280 together are equivalent to MATH 2250 (Major Requirement) *** Students must also take a MATLAB course

Major Requirement

4 4

Major Requirement



Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Dixie State University: Dr. Victor Hasfurther (435) 652-7861, [email protected] University of Utah: Electrical Engineer Academic Advisor, 3313 MEB, (801)5814657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at LDS Business College to fulfill requirements for pre-electrical engineering and intermediate engineering students. There are additional requirements not offered at LDS Business College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

LDSBC COURSE ENG 201

COURSE TITLE Intermediate College Writing

CR 3

U OF U COURSE WRTG 2010

U OF U COURSE TITLE Intermed Writing: Academic Writing and Research

CR 3

ELECTRICAL ENGINEERING REQUIREMENT Major Requirement



LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801)581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Salt Lake Community College to fulfill requirements for pre-electrical engineering students. There are additional requirements not offered at SLCC that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

SLCC COURSE EE 1020 or ENGR 1030 or ENGR 1040 & EE 1270

COURSE TITLE EE Problem Solving with Matlab Matlab Problem Solving Engineering Computation

CR 1 3 3

Intro Electric Circuits I

4

MATH 1210

Calculus I

MATH 1220

U OF U COURSE

U OF U COURSE TITLE

CR

ELECTRICAL ENGINEERING REQUIREMENT

ECE 1250

Electrical & Computer Engr Design

4

4

MATH 1210

Calculus I

4

Major Requirement

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

PHYS 2210 ENGL 2010 or ENGL 2100

Physics for Scientists & Engineers I Intermediate Writing or Technical Writing

4 3 3

PHYS 2210

4

Major Requirement

WRTG 2010

Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

3

Major Requirement

CS 1400

Fundamentals of Programming

3

CS 1030**

Intro to Computer Science

3

Major Requirement

CS 1410

Object Oriented Programming Physics for Scientists & Engineers II

4

CS 1410

Intro to Computer Science I

4

Major Requirement

4

PHYS 2220

Physics for Scientists & Engineers II

4

Major Requirement

3

MATH 2210

Major Requirement

3

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

3

MATH 2250

Multivariate Calculus Linear Algebra & Differential Equations

4

Major Requirement

EE 2260

Fund of Electric Circuits II

4

ECE 2240

Intro to Electric Circuits

1-4

Major Requirement

EE 2700

Fund of Digital System Design

4

Course may satisfy requirement. See departmental advisor.

EE 2280 BIOL 1610

Fund of Engineering Electronics College Biology I

4 4

ECE 2280 BIOL 1210

4 4

Major Requirement

4 1

Math/Sci Requirement

PHYS 2220 MATH 2210

CHEM 1210 CHEM 1215



Fund of Engineering Electronics Fund of Engineering Electronics

General Chemistry I 4 CHEM 1210 General Chemistry I General Chemistry I Lab 1 CHEM 1215 General Chemistry I Lab *Students who pass exam may bypass CS 1030 and proceed to CS 1410

Major Requirement

Salt Lake Community College offers an associate of Pre-Engineering with an Electrical Engineering emphasis, which includes courses required for the Electrical Engineering degree at the U. Note: The Associates in Pre-Engineering does not complete general education requirements for a bachelor’s degree at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.

Update 08/2016 Information is subject to change.



If you have further questions regarding this major, you may contact: Salt Lake Community College: Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-9574858, [email protected] University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801) 581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Snow College to fulfill requirements for preelectrical engineering and intermediate engineering students. There are additional requirements not offered at Snow College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

SNOW COURSE ENGR 2250 & ENGR 2255

COURSE TITLE Analog Circuits Analog Circuits Lab

MATH 1210

CR

ELECTRICAL ENGINEERING REQUIREMENT

4

Major Requirement

Calculus I

4

Major Requirement

4

Major Requirement

4

Major Requirement

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

3

Major Requirement

3 3 1

CS 1030**

Intro to Computer Science

3

Major Requirement

CS 1410

Intro to Computer Science I

4

Major Requirement

3

MATH 2210

Calculus III

3

Major Requirement

4 3 3

MATH 2250

Ordinary Differential Equations Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers II Principles of Biology General Chemistry I General Chemistry Lab I

4

Major Requirement

4

Major Requirement

U OF U COURSE

CR 3 1

ECE 1250**

U OF U COURSE TITLE Electrical & Computer Engr Design

Calculus I

5

MATH 1210

MATH 1220

Calculus II

4

MATH 1220

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

ENGL 2010

Intermediate Research Writing

3

CS 1400 CS 1410 CS 1415

Programming Fundamentals Object-Oriented Programming Object-Oriented Programming Lab

MATH 2210

Multivariable Calculus Linear Algebra & Differential Equations Linear Algebra Differential Equations

MATH 2250 MATH 2270 MATH 2280 PHYS 2220 BIOL 1610 CHEM 1210 CHEM 1215 ENGR 2700 ENGR 2705

MATH 2250

Physics for Scientists & Engineers II 4 PHYS 2220 4 Major Requirement Biolgy I 4 BIOL 1210 4 Principles of Chemistry I 4 CHEM 1210 4 Math/Sci Principles of Chemistry I Lab 1 CHEM 1215 1 Requirement Digital Circuits 3 Digital Circuits Lab 1 Course may satisfy requirement. See departmental advisor. *Students who pass exam may bypass CS 1030 and proceed to CS 1410 ** Students must also take a Matlab course.



Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Snow College, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Snow College: Brian Newbold, SCNCE 105, (435) 283-7515, [email protected] University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801) 581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pr-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Southern Utah University to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CR

ELECTRICAL ENGINEERING REQUIREMENT

ECE 1250**

U OF U COURSE TITLE Electrical & Computer Engr Design

4

Major Requirement

4

MATH 1210

Calculus I

4

Major Requirement

4

MATH 1220

Major Requirement

4

PHYS 2210

4

Major Requirement

ENGL 2010

Intermediate Writing

3

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

4

PHYS 2210

Calculus II Physics for Scientists & Engineers I

3

Major Requirement

CSIS 1400

Fundamentals of Programming

3

CS 1030*

Intro to Computer Science

3

Major Requirement

CSIS 1410

Object Oriented Programming

3

CS 1410

Intro to Computer Science I

4

Major Requirement

MATH 2210

4

MATH 2210

Calculus III

3

Major Requirement

4 3 3

MATH 2250

Ordinary Differential Equations

4

Major Requirement

MATH 2250

Major Requirement

4

PHYS 2220

Ordinary Differential Equations Physics for Scientists & Engineers II

4

PHYS 2220

Calculus III Linear Algebra & Differential Equations Linear Algebra with Applications Differential Equations Physics for Scientists & Engineers II

4

Major Requirement

CSIS 3500

Advanced Computer Architecture

3

ECE 3810

Computer Organization

4

Major Elective

CHEM 1210 CHEM 1215 Or BIOL 1610

Principles of Chemistry I Chemical Principles Lab I

4 1

CHEM 1210 CHEM 1215

General Chemistry I General Chemistry Lab I

4 1

SUU COURSE ENGR 2250 ENGR 2255

COURSE TITLE Electric Circuits Electric Circuits Lab

CR 3 1

MATH 1210

Calculus I

MATH 1220

MATH 2250 MATH 2270 MATH 2280

U OF U COURSE

Biology I 4 BIOL 1210 Prin of Biology *Students who pass exam may bypass CS 1030 and proceed to CS 1410 ** Students must also take a MATLAB course.

4

Math/Sci Requirement



While attending SUU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from SUU, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Southern Utah University: Sharon Brown, (435) 586-5420, TH 118 University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801)581-4657,

Update 08/2016 Information is subject to change.

www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at USU/USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

USU/USUE COURSE ECE 2250 ECE 2255

COURSE TITLE Electrical Circuits I Circuits Lab

MATH 1210 MATH 1220

U OF U COURSE

CR

ELECTRICAL ENGINEERING REQUIREMENT

4

Major Requirement

4

Major Requirement

4

Major Requirement

4

Major Requirement

CR 3 1

ECE 1250**

U OF U COURSE TITLE Electrical & Computer Engr Design

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

4

PHYS 2210

ENGL 2010

Calculus II General Physics: Science & Engineering I Intermed Writing: Research Writing in a Persuasive Mode

3

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

3

Major Requirement

CS 1400

Intro to Programming

3

CS 1030**

Intro to Computer Science

3

Major Requirement

CS 1410

Intro to Computer Science- CS2

3

CS 1410

Intro to Computer Science I

4

Major Requirement

MATH 2210

3

MATH 2210

Major Requirement

4

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

3

MATH 2250

Multivariable Calculus Linear Algebra & Differential Equations

4

Major Requirement

MATH 2270

Linear Algebra

3

MATH 2270

3

Major Requirement

MATH 2280

3

MATH 2280

3

Major Requirement

PHYS 2220

Ordinary Differential Equations General Physics: Science & Engineering II

4

PHYS 2220

Linear Algebra Introduction to Differential Equations Physics for Scientists & Engineers II

ECE 2290

Electrical Circuits 2

3

ECE 2240

Intro to Electric Circuits

ECE 3410

Microelectronics I

3

ECE 2280

Fund of Engineering Electronics

ECE 2700

Digital System Design

3

Course may satisfy requirement. See departmental advisor.

ECE 5440

Analog VLSI I

3

ECE 3110

ECE 3870 ECE 3620 ECE 3640

Electromagnetics I Continuous-Time Sys & Signals Discrete-Time Sys & Signals

3 3 3

PHYS 3710

Intermediate Modern Physics

ECE 5310

PHYS 2210

4

Major Requirement

1-4

Major Requirement

4

Major Requirement

4

Major Elective

ECE 3300

Engineering Electronics II Fund of Electromagnetics and Transmission Lines

4

Major Requirement

ECE 3500

Fund of Signals & Systems

4

Major Requirement

3

ECE 3740

Intro Quantum & Relativity

3

Major Elective

Control Systems

3

ECE 3510

Intro to Feedback Systems

4

Major Elective

ECE 5810

Microwaves I

3

ECE 5320

Microwave Engineering I

4

Major Elective

ECE 5850

Antennas I

3

ECE 5324

Antenna Theory & Design

3

Major Elective

ECE 5630

Digital Signal & Image Processing

3

ECE 5530

3

Major Elective

3 4 1

ECE 5720 CHEM 1210 CHEM 1215

Digital Signal Processing Analog Integrated Circuit Design General Chemistry I General Chemistry Lab I

3 4 1

Major Elective Math/Sci Requirement

ECE 5440 Analog VLSI I CHEM 1210 Principles of Chemistry I CHEM 1215 Chemical Principles Lab I Update 08/2016 Information is subject to change.

Or BIOL 1610

Princ of Biology Biology I 4 BIOL 1210 *Students who pass exam may bypass CS 1030 and proceed to CS 1410 ** Students must also take a MATLAB course.

4



While attending USU/USUE, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from USU/USUE, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center 304 (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801)581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pr-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Utah Valley University to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at UVU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

CR

ELECTRICAL ENGINEERING REQUIREMENT

Electrical & Computer Engr Design

4

Math/Sci Requirement

MATH 1210

Calculus I

4

Major Requirement

5

MATH 1220

4

Major Requirement

Physics for Scientists & Engineers I Intermed Writing-Hum/Soc Sci Intermed Writing- Sci Tech

4 3 3

PHYS 2210

4

Major Requirement

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

3

Major Requirement

CS 1400

Fundamentals of Programming

3

CS 1030**

Intro to Computer Science

3

Major Requirement

CS 1410

Object-Oriented Programming

3

CS 1410

Intro to Computer Science I

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra Ordinary Differential Equations

3 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra

3

Major Requirement

4

Major Requirement

3

MATH 3150

2

Major Requirement

4

Major Requirement

U OF U COURSE

UVU COURSE EENG 1020 & EENG 2250 & EENG 2255

COURSE TITLE Computer Engr Prob Solving Matlab Circuit Theory Circuit Theory Lab

CR 1 3 1

ECE 1250

MATH 1210

Calculus I

5

MATH 1220

Calculus II

PHYS 2210 ENGL 2010 or ENGL 2020

MATH 3400

MATH 2250

U OF U COURSE TITLE

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Partial Diff Eqns for Sci & Eng Physics for Scientists & Engineers II

ECE 2700

Digital Design I

3

ECE 3700

Fund of Digital System Design

4

Major Requirement

ECE 3770

Signals and Systems

3

ECE 3500

4

Major Requirement

PHYS 3740 CHEM 1210 CHEM 1215 Or BIOL 1610

Modern Physics Principles of Chemistry I Principles of Chemistry I Lab

3 4 1

ECE 3740 CHEM 1210 CHEM 1215

Fund of Signals and Systems Intro to Quantum Theory & Relativity General Chemistry I Principles of Chemistry I Lab

3 4 1

Major Elective

College Biology I 4 BIOL 1210 Principles of Biology *Students who pass exam may bypass CS 1030 and proceed to CS 1410

4

Math/Sci Requirements



Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact:

Update 08/2016 Information is subject to change.

Utah Valley University: Andrew Gifford, CS 635h, (801) 8638648, [email protected], https://andrewgifford.youcanbook.me. University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801)581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pre-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Weber State University to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at Weber State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

WEBER COURSE

U OF U COURSE

CR

ELECTRICAL ENGINEERING REQUIREMENT

4

Major Requirement

EE 1270

Intro to Electrical Circuits

4

ECE 1250**

U OF U COURSE TITLE Electrical & Computer Engr Design

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

4

MATH 1220

Major Requirement

5

PHYS 2210

4

Major Requirement

ENGL 2010

Intermediate College Writing

3

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermediate Writing: Academic Writing & Research

4

PHYS 2210

Calculus II Physics for Scientists & Engineers I

3

Major Requirement

CS 1400

Fundamentals of Programming

3

CS 1030*

Intro to Computer Science

3

Major Requirement

CS 1410

Object-Oriented Programming

4

CS 1410

Intro to Computer Science I

4

Major Requirement

MATH 2210

Calculus III Linear Algebra & Differential Equations

4

MATH 2210

Calculus III

3

Major Requirement

Major Requirement

3 3

Ordinary Differential Equations & Linear Algebra

4

Elementary Linear Algebra Ordinary Differential Eqns

MATH 2250

3

MATH 3150

Major Requirement

5

PHYS 2220

Partial Differential Eqns for Sci & Eng Physics for Scientists & Engineers II

2

PHYS 2220

Boundary Value Problems Physics for Scientists & Engineers II

4

Major Requirement

EE 2260

Fund of Electrical Circuits

4

ECE 2240

Intro to Electric Circuits

1-4

Major Requirement

EE 2700

Digital Circuits

4

Course may satisfy requirement. See departmental advisor.

EE 3120

4

ECE 2280

EE 6130

Microelectronics II Advanced Semiconductor Devices

3

ECE 3200

EE 3310

Electromagnetics I

4

EE 3210

Signal & Systems

EE 4100

MATH 2250 Or MATH 2270 MATH 2280 MATH 3710

COURSE TITLE

CR

4

4

Major Requirement

3

Major Requirement

ECE 3300

Fund of Engr Electronics Intro to Semiconductor Device Physics Fund of Electromagnetics & Transmission Lines

4

Major Requirement

4

ECE 3500

Fund of Signals & Systems

4

Major Requirement

Control Systems

4

ECE 3510

Intro to Feedback Systems

4

Major Requirement

EE 4510

Power Systems

4

ECE 3600

Power Systems

3

Major Elective

EE 4210

Digital Signal Processing

3

ECE 5530

Digital Signal Processing

3

Major Elective

Update 08/2016 Information is subject to change.

CHEM 1210 Principles of Chemistry I 5 CHEM 1210 General Chemistry I CHEM 1215 Principles of Chemistry I Lab 1 CHEM 1215 General Chemistry Lab I *Students who pass exam may bypass CS 1030 and proceed to CS 1410 ** Student must also take a MATLAB course.

4 1

Math/Sci Requirement



While attending Weber State, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from WSU, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Weber State University: Dr. Fon Brown, Electrical Engineering Advisor, ET 236B, (801) 6267781 University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801)581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

ELECTRICAL ENGINEERING Electrical engineering embraces career fields in electronics, microelectronics, digital systems, communications, signal processing, medical instrumentation, lasers, and electromagnetics. 

Admission Criteria: Students are admitted to full major status following completion of at least 17.5 semester hours of required technical classes with at least a 2.8 GPA or higher. Admission to major status is required in order to take Electrical Engineering classes beyond the freshman level. Admission evaluations are done every semester. Deadlines for each semester will be announced. You may apply for major status during any semester in which you will complete the pr-major classes. You must have been accepted by the U before you apply for major status.



Transferring Courses: The following courses may be taken at Westminster College to fulfill requirements for the Electrical Engineering degree at the U. There are additional requirements not offered at Westminster College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

WESTMINSTER COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

ELECTRICAL ENGINEERING REQUIREMENT

MATH 201

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 202

4

MATH 1220

Major Requirement

4

PHYS 2210

4

Major Requirement

ENGL 110

Composition & Research

4

WRTG 2010

Calculus II Physics for Scientists & Engineers I Intermed Writing: Academic Writing & Research

4

PHYS 211

Calculus II Physics for Scientists & Engineers I

3

Major Requirement

CMPT 201

Intro to Computer Science

4

CS 1030*

Intro to Computer Science

3

Major Requirement

CMPT 202

Intro to Data Structures

4

CS 1410

Intro to Computer Science I

4

Major Requirement

Multivariate Calculus 4 MATH 2210 Calculus III Linear Algebra II 4 Ordinary Differential Differential Equations 4 MATH 2250 Equations & Linear Algebra Physics for Scientists & Physics for Scientists & PHYS 212 Engineers II 4 PHYS 2220 Engineers II BIOL 105 or Princ of Biology I & Lab 4 BIOL 1210 or Princ of Biology CHEM 111 Princ of Chemistry I & Lab 4 CHEM 1210 General Chemistry I *Students who pass exam may bypass CS 1030 and proceed to CS 1410

4

Major Requirement

4

Major Requirement

4 4 4

Major Requirement Math/Sci Requirement

MATH 203 MATH 311 MATH 363



While attending Westminster College, students may complete General Education requirement and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Westminster College: General Advising, START Center, Carleson Hall, (801) 832-2280 University of Utah: Electrical Engineering Academic Advisor, 2666 MEB, (801) 581-4657, www.ece.utah.edu

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE & ENGINEERING

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at BYU to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at BYU that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

BYU COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MATERIALS SCIENCE & ENGINEERING REQUIREMENT

CHEM 105

General Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 106

General Chemistry II

3

General College Chemistry Lab

1

General Chemistry II General Chemistry Lab I General Chemistry Lab II

4 1 1

Major Requirement

CHEM 107

CHEM 1220 CHEM 1215 CHEM 1225

CHEM 351

Organic Chemistry

3

CHEM 2310

Organic Chemistry

4

Major Requirement

MATH 112

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 314 MATH 334 MATH 313

3 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra

3

Major Requirement

4

Major Requirement

MATH 347

Calculus of Several Variables Ordinary Differential Equations Elementary Linear Algebra Introduction to Partial Differential Equations

3

MATH 3150

2

Major Requirement

PH 121

Principles of Physics I

3

PHYS 2210

4

Major Requirement

PH 220

Principles of Physics II

3

PHYS 2220

Partial Differential Equations Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

C S 142 CE EN 103

Intro to Computer Programming Engineering Mechanics-Statics Engineering Mechanics-Mechanics of Materials

3 2

CS 1000

Engineering Computing

3

Major Requirement

3

ME EN 2010

Statics

3

Major Requirement

CE EN 203

MATH 2250

Major Requirement



While attending BYU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.

Update 08/2016 Information is subject to change.



If you have further questions regarding this major, you may contact: Brigham Young University: Academic Advisement, (801)422-3641 University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterials, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at BYU-Idaho to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at BYUIdaho that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

BYUIDAHO COURSE

MATERIALS SCIENCE & ENGINEERING REQUIREMENT

CHEM 105

General Chemistry

4

CHEM 106

General Chemistry

4

U OF U COURSE CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225

CHEM 351

Organic Chemistry

4

CHEM 2310

Organic Chemistry

4

Major Requirement

FDMAT 112

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus II

3

MATH 1220

Calculus II

4

Major Requirement

MATH 214

Multivariate Calculus

3

MATH 2210

3

Major Requirement

MATH 472 MATH 341 MATH 371

Intro to Partial Differential Equations Linear Algebra Intro to Ordinary Differential Equations

3 3 3

MATH 3150

2

Major Requirement

4

Major Requirement

PH 123

Principles of Physics II

3

PHYS 2210

4

Major Requirement

PH 220

Principles of Physics III

3

PHYS 2220

Calculus III Partial Differential Equations for Engineering Students Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

ME 142 ME 201 ME 202 ME 250 ME 250L

Engineering Computation I Engineering Mechanics: Statics Strength of Materials Materials Science Materials Lab

3 2 3 3 1

CS 1000

Engineering Computing

3

Major Requirement

ME EN 2010

Statics Introduction to Materials Science & Engineering

3

Major Requirement

4

Major Requirement

COURSE TITLE

CR

MATH 2250

MSE 2010

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II

CR 4 1 4 1

Major Requirement Major Requirement



BYU-Idaho offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: BYU-Idaho: Career & Academic Advising, Kimball 250, (208) 496-1167

Update 08/2016 Information is subject to change.

University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterials, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Dixie State University to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at Dixie State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

U OF U COURSE

DIXIE COURSE

COURSE TITLE

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

MATH 2210 MATH 2270 MATH 2280

Multivariable Calculus Linear Algebra Ordinary Differential Equations Physics for Scientists & Engineers I Physics for Scientists & Engineers II Statics Strengths of Materials Electrical Circuits Electrical Circuits lab I

3 3 3

MATH 2210

3

4

PHYS 2210

4 3 3 3 1

PHYS 2220

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics for Scientists & Engineers II Statics Electrical & Computer Engineering for Civil Engr

3

PHYS 2210 PHYS 2220 ENGR 2010 ENGR 2140 ENGR 2270 ENGR 2275



CR

MATH 2250

ME EN 2010 ECE 2200

U OF U COURSE TITLE

CR

4 4 4

1.5

MATERIALS SCIENCE & ENGINEERING REQUIREMENT Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie, students may take foreign language credits and/or other transferable

Update 08/2016 Information is subject to change.

electives for the U. 

Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Dixie State University: Dr. Victor Hasfurther (435) 652-7861, [email protected] University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterials, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at LDS Business College to fulfill requirements for the Materials Science & Engineering degree at the U. There are additional requirements not offered at LDS Business College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

LDSBC COURSE MATH 111

COURSE TITLE Calculus

CR 3

U OF U COURSE MATH 1210

U OF U COURSE TITLE Calculus I

CR 4

MATERIALS SCIENCE & ENGINEERING REQUIREMENT Major Requirement



LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: Marcie Leek, 304 CME, (801) 581-68963, [email protected]

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Salt Lake Community College to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at SLCC that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

SLCC COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MATERIALS SCIENCE & ENGINEERING REQUIREMENT

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210

3

MATH 2210

Major Requirement

3

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

3

MATH 2250

Multivariate Calculus Linear Algebra/Differential Equations

4

Major Requirement

CHEM 1210

General Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

General Chemistry Lab I

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

CHEM 1220

General Chemistry II

4

CHEM 1220

General Chemistry II

4

Major Requirement

CHEM 1225

General Chemistry Lab II

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

CHEM 2310

4

Major Requirement

4

PHYS 2210

4

Major Requirement

4

PHYS 2220

Organic Chemistry I Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

Engineering Computing Strength of Materials I Statics Electrical Engineering for Civil Engineers Introduction to Materials Science Engineering

3 2 3

CS 1000

Engineering Computing

3

Major Requirement

ME EN 2010

3

Major Requirement

1.5

ECE 2200

1.5

Major Requirement

4

MSE 2010

Statics Electrical & Computer Engineering for Civil Engineers Intro to Materials Science & Engineering

4

Major Requirement

PHYS 2210 PHYS 2220 ENGR 1040 MEEN 2140 MEEN 2010 EE 2200 MSE 2010





Salt Lake Community College offers an Associates of Pre-Engineering with an emphasis in Materials Science, which includes courses required for the Material Science & Engineering degree at the U. Note: The Associates in Pre-Engineering does not complete general education requirements for a bachelor’s degree at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the

Update 08/2016 Information is subject to change.

U. 

If you have further questions regarding this major, you may contact: Salt Lake Community College: Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-9574858, [email protected] University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterials, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Snow College to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at Snow that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

SNOW COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

CHEM 2310 ENGR 2010 ENGR 2140 ENGR 2250 ENGR 2255

Organic Chemistry I Statics Strength of Materials Analog Circuits Analog Circuits Lab

4 2 3 3 1

CHEM 2310

Organic Chemistry I

4

ME EN 2010

3

ECE 2200

Statics Electrical & Computer Engineering for Civil Engineers

ENGR 2450

Numerical Methods

3

CS 1000

Engineering Computing

3

MATH 1210

Calculus

5

MATH 1210

Calculus I

4

MATH 1220

Calculus

4

MATH 1220

Calculus II

4

MATH 2210 MATH 2270 MATH 2280

Multivariable Calculus Linear Algebra Differential Equations

3 3 3

MATH 2210

3

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics for Scientists & Engineers II

ENGR 2160

Materials Science

3

MSE 2160

Elements of MSE

3

ENGR 2160

Materials Science

3

MSE 2170

Elements of MSE

1.5



MATH 2250

1.5

4 4 4

MATERIALS SCIENCE & ENGINEERING REQUIREMENT Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Snow College, students may take foreign language credits and/or other transferable electives for the U.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Snow College: Brian Newbold, SCNCE 205, (435) 283-7535 University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Southern Utah University to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

SUU COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MATERIALS SCIENCE & ENGINEERING REQUIREMENT

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

CHEM 1220

Principles of Chemistry II

4

CHEM 1220

General Chemistry II

4

Major Requirement

CHEM 1225

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra with Applications Differential Equations Partial Differential Equations & Fourier Analysts Physics for Scientists & Engineers I Physics for Scientists & Engineers II Statics Strength of Materials Material Science Engineering Material Science Engineering Lab Electro-Mechanical Systems Electro-Mechanical Systems lab Intro to Programming with MatLab

4 3 3

MATH 2210

Calculus III Ordinary Differential Equations & Linear Algebra

3

Major Requirement

4

Major Requirement

4

MATH 3150

2

Major Requirement

4

PHYS 2210

4

Major Requirement

4 3 3 3 1 3 1

PHYS 2220

PDE’s for Engineers Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

3

Major Requirement

4

Major Requirement

ECE 2200

Statics Intro to Materials Science & Engineering Electrical & Computer Engineering for Civil Engineers

1.5

Major Requirement

3

CS 1000

Engineering Computing

3

Major Requirement

MATH 3800 PHYS 2210 PHYS 2220 ENGR 2010 ENGR 2140 ENGR 3010 ENGR 3015 ENGR 2270 ENGR 2275 CSIS 1040



MATH 2250

ME EN 2010 MSE 2010

While attending SUU, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from SUU, which states all general education requirements have been completed.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Southern Utah University: Student Development Center, (435) 586-5419 University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 



Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status. Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at USU/USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

CR

MATERIALS SCIENCE & ENGINEERING REQUIREMENT

General Chemistry I

4

Major Requirement

CHEM 1215

General Chemistry Lab I

1

Major Requirement

4

CHEM 1220

General Chemistry II

4

Major Requirement

Chemical Principles of Lab II

1

CHEM 1225

General Chemistry Lab II

1

Major Requirement

CHEM 2310

Organic Chemistry I

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210

3

MATH 2210

Major Requirement

4

MATH 2250

4

Major Requirement

4

PHYS 2210

4

Major Requirement

4 2 2

PHYS 2220

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics for Scientists & Engineers II

3

PHYS 2220 ENGR 2010 ENGR 2140

Multivariable Calculus Linear Algebra & Ordinary Differential Equations General Physics: Science & Engineering I General Physics: Science & Engineering II Engineering Mechanics Statics Strength of Materials

4

Major Requirement

3

Major Requirement

ECE 2250

Electrical Circuits

4

ECE 2200

Statics Electrical & Computer Engineering for Civil Engineers

1.5

Major Requirement

CS 1400 MAE 2160 MAE 2165

Intro to Computer Science Material Science Material Science Laboratory

3 3 1

CS 1000

3

Major Requirement

MSE 2010

Engineering Computing Intro to Materials Science and Engineering

4

Major Requirement

MAE 2160

Material Science

3

MSE 2160

Elements of MSE

3

MAE 2160

Material Science

3

MSE 2170

Elements of MSE

1.5

U OF U COURSE

USU/USUE COURSE

COURSE TITLE

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

CHEM 1215

Chemical Principles I Lab

1

CHEM 1220

Principles of Chemistry II

CHEM 1225

MATH 2250 PHYS 2210



CR

ME EN 2010

U OF U COURSE TITLE

While attending USU/USUE, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from USU/USUE, which states all general education requirements have been completed.

Update 08/2016 Information is subject to change.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center 304 (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Utah Valley University to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at UVU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major.

CR

MATERIALS SCIENCE & ENGINEERING REQUIREMENT

General Chemistry I

4

Major Requirement

CHEM 1215

General Chemistry I Lab

1

Major Requirement

4

CHEM 1220

General Chemistry II

4

Major Requirement

Principles of Chemistry II Lab

1

CHEM 1225

General Chemistry II Lab

1

Major Requirement

CHEM 2310 EENG 2250 EENG 2255

Organic Chemistry I Circuit Theory Circuit Theory Lab

4 3 1

CHEM 2310

4

Major Requirement

ECE 2200

Organic Chemistry I Electrical & Computer Engineering for Civil Engr

1.5

Major Requirement

CS 1400

Fundamentals of Programming

3

CS 1000

Engineering Computing

3

Major Requirement

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

5

MATH 1220

Calculus II

4

Major Requirement

MATH 2210 MATH 2270 MATH 2280

Calculus III Linear Algebra Ordinary Differential Equations Physics for Scientists & Engineers I Physics for Scientists & Engineers II Engineering Statics Mechanics of Materials

3 3 3

MATH 2210

3

Major Requirement

4

Major Requirement

4

PHYS 2210

4

Major Requirement

4 3 3

PHYS 2220

Calculus III Ordinary Differential Equations & Linear Algebra Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

ME EN 2010

Statics

3

Major Requirement

U OF U COURSE

UVU COURSE

COURSE TITLE

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1220

Principles of Chemistry II

CHEM 1225

PHYS 2210 PHYS 2220 ENGR 2010 ENGR 2140

CR

MATH 2250

U OF U COURSE TITLE



Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may take foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.

Update 08/2016 Information is subject to change.



If you have further questions regarding this major, you may contact: Utah Valley University: Fred Orchard, CS 635, (801) 863-6238, [email protected] University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Weber State University to fulfill requirements for the Materials Science and Engineering degree at the U. There are additional requirements not offered at Weber State that must be taken at the U.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors these courses may not clear requirements for your new major. MATERIALS SCIENCE & ENGINEERING REQUIREMENT

CHEM 1210

Principles of Chemistry I

5

CHEM 1220

Principles of Chemistry II

5

U OF U COURSE CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225

CHEM 2310

Organic Chemistry I

5

CHEM 2310

Organic Chemistry I

4

Major Requirement

MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 2210

Calculus III Linear Algebra & Differential Equations

3

MATH 2210

3

Major Requirement

4

MATH 2250

Calculus III Ordinary Differential Equations & Linear Algebra

4

Major Requirement

Partial Differential Equations Physics for Scientists & Engineers I Physics for Scientists & Engineers II Statics Strength of Materials Electrical Engineering for nonmajors

3

MATH 3150

2

Major Requirement

5

PHYS 2210

4

Major Requirement

4 3 3

PHYS 2220

Partial Differential Equations Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

3

Major Requirement

4

ECE 2200

Statics Electrical & Computer Engineering for Civil Engr

1.5

Major Requirement

WEBER COURSE

MATH 2250 MATH 3730 PHYS 2210 PHYS 2220 ENGR 2010 ENGR 2140 ENGR 2210



 

COURSE TITLE

CR

ME EN 2010

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry II Lab

CR 4 1 4 1

Major Requirement Major Requirement

While attending Weber, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U. Students may have a letter of completion sent from WSU, which states all general education requirements have been completed. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Weber State University: Academic Advisement, (801) 626-6752 University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MATERIALS SCIENCE AND ENGINEERING Materials science and engineering uses a base of chemistry and physics to develop the scientific and engineering aspects of materials-ceramics, metals, polymers (plastics) and biomaterial, solid state/semiconductors, composites, and high-strength composites. Interdisciplinary programs include materials development for energy systems and conservation, high-temperature batteries, coal gasification, solar energy, chemical-vapor deposition, utilization of waste materials, biodegradable polymers, ultra-hard materials, integrated circuits and semi-conductor devices, biomedical materials, and materials processing. 

Admission Criteria: In order to enroll in sophomore-level materials science and engineering courses students must apply and be admitted to intermediate status. Applications can be initiated through the freshman-sophomore advisor. Students must also apply to be admitted to major status. Students should consult with the junior-senior advisor to determine the appropriate time (normally at the beginning of the junior year) for advancement to major status.



Transferring Courses: The following courses may be taken at Westminster College to fulfill requirements for the Materials Science & Engineering degrees at the U. There are additional requirements not offered at Westminster that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. MATERIALS SCIENCE & ENGINEERING REQUIREMENT

CHEM 111

Principles of Chemistry I & Lab

4

CHEM 112

Principles of Chemistry II & Lab

4

U OF U COURSE CHEM 1210 CHEM 1215 CHEM 1220 CHEM 1225

CHEM 303

Organic Chemistry I & Lab

4

CHEM 2310

Organic Chemistry I

4

Major Requirement

CMPT 201

Intro to Computer Science

4

CS 1000

Engineering Computing

3

Major Requirement

MATH 201

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 202

Calculus II

4

MATH 1220

Calculus II

4

Major Requirement

MATH 203

Multivariate Calculus Linear Algebra & Differential Equations

4

MATH 2210

Calculus III

3

Major Requirement

4

MATH 2250

ODE’s & Linear Algebra

4

Major Requirement

Differential Equations II Physics for Scientists & Engineers I & Lab Physics for Scientists & Engineers II & Lab

4

MATH 3150

2

Major Requirement

4

PHYS 2210

4

Major Requirement

4

PHYS 2220

PDE’s for Engineers Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

WESTMINSTER COURSE

MATH 204 MATH 363 PHYS 211 PHYS 212

COURSE TITLE

CR

U OF U COURSE TITLE General Chemistry I General Chemistry Lab I General Chemistry II General Chemistry Lab II

CR 4 1 4 1

Major Requirement Major Requirement



While attending Westminster, students may complete General Education requirements and courses identified to fulfill the University requirements, including foreign language credits and/or other transferable electives for the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Westminster College: General Advising, (801) 832-2280 University of Utah: Marcie Leek, 304 CME, (801) 581-6863, [email protected]

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division ( ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course.

 Transferring Courses: The following courses may be taken at BYU to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at BYU that must be taken at the U.

Update 08/2016 Information is subject to change.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major. BYU COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 112

Calculus 1

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus 2

4

MATH 1220 PHYS 2210

Calculus II

4

Major Requirement

PHYS 2215***

Physics for Scientists & Engineers I Physics Lab for Scientists & Engineers I Physics for Scientists & Engineers II Physics Lab for Scientists & Engineers II

4

PHYS 2220

1 4

PHSCS 121 PHSCS 123 PHSCS 220

Principles of Physics 1 Principles of Physics 2 Principles of Physics 3

3 3 2

PHYS 2225***

CHEM 105 CHEM 107 or PHSCS Labs

General College Chemistry

4

CHEM 1210

General Chemistry I

4

Major Requirement

General College Chemistry Lab Intro to Scientific Computing & Computer-Aided Engineering

1

CHEM 1215

General Chemistry Lab I

1

Major Requirement

3

ME EN 1000

Engineering Computing

3

Major Requirement

Engineering Mechanics-Statics Engineering MechanicsMechanics of Materials

2 3

ME EN 1300

Statics & Strength of Materials

4

Major Requirement

4

Major Requirement

Calculus III Electrical & Computer Engineering for Nonmajors Elements of Materials Science & Engineering

3

Major Requirement

3

Major Requirement

3

Major Requirement

Particle Dynamics Manufacturing for Engineering Systems

2

Major Requirement

3

Major Requirement

2

Major Requirement

3

Major Requirement

ME EN 373** CE EN 103 & CE EN 203

ADDITIONAL MAJOR REQUIREMENTS: MATH 334 Ordinary Differential Equations MATH 313 Elementary Linear Algebra

3 3

MATH 2250

MATH 314

Calculus of Several Variables Elements of Electrical Engineering

3

MATH 2210

3

ECE 2210

3

MSE 2160

CE EN 204

Science of Engineering Materials Engineering MechanicsDynamics

3

ME EN 2020*

ME EN 282

Manufacturing Processes

3

ME EN 2650

EC EN 301 ME EN 250

Ordinary Differential Equations & Linear Algebra

ME EN 321

Thermodynamics 3 ME EN 2300 Thermodynamics I Intro to Scientific Computing & Numerical Methods for ME EN 373** Computer-Aided Engineering 3 ME EN 2450 Engineering Systems *ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour. **Please note: ME EN 373 will count for either ME EN 1010 or ME EN 2450 but not for both. *** Physics labs are not required for the Mechanical Engineering major at the U.

1 Major Requirement



While attending BYU, students may complete General Education requirements and other courses identified to fulfill University requirements.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Brigham Young University: Academic Advisement, (801)422-3641

Update 08/2016 Information is subject to change.

University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at BYU-Idaho to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at BYU-Idaho that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major

Update 08/2016 Information is subject to change.

only. If you change majors, these courses may not clear requirements for your new major.

BYU-IDAHO COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: FDMAT 112

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 113

Calculus II

3

MATH 1220

4

Major Requirement

CHEM 1210 CHEM 1215

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II General Chemistry I General Chemistry Lab I

ME EN 1300

PH 121 PH 123 PH 220

Principles of Physics I Principles of Physics II Principles of Physics III

CHEM 105 General Chemistry ME 201 Engineering Mechanics: Statics ME 202 Strength of Materials ADDITIONAL MAJOR REQUIREMENTS:

3 3 3 4 2 3

PHYS 2210 PHYS 2220

MATH 341 MATH 371

Linear Algebra Intro Ordinary Differential Equations

3 3

MATH 2250

MATH 214

Multivariate Calculus

3

MATH 2210

ME 250

Materials Science

3

ME 204

Engineering Mechanics-Dynamics

3

MSE 2160 ME EN 2020*

ME 322

Thermodynamics I

3

ME EN 2300

4

Major Requirement

4 1

Major Requirement

Statics & Strength of Materials

4

Major Requirement

Ordinary Differential Equations & Linear Algebra

4

Major Requirement

Calculus III Elements of Materials Science & Engineering

3

Major Requirement

3

Major Requirement

Particle Dynamics

2

Major Requirement

2

Major Requirement

3

Major Requirement

Thermodynamics I Numerical Methods for ME 342 Engineering Computation II 3 ME EN 2450 Engineering Systems * ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour.

 



4

While attending BYU-Idaho, students may complete General Education requirements and other courses identified to fulfill University requirements. BYU-Idaho offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: BYU-Idaho: Career & Academic Advising, Kimball 250, (208) 496-3043 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Dixie State to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at Dixie State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major

Update 08/2016 Information is subject to change.

only. If you change majors, these courses may not clear requirements for your new major.

DIXIE COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMEN T

REQUIREMENTS FOR FULL MAJOR STATUS: Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

4

MATH 1220

4

PHYS 2210

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215 Principles of Chemistry I Lab ENGR 2010 Statics & ENGR 2140 Strengths of Materials ADDITIONAL MAJOR REQUIREMENTS:

1 3

CHEM 1215

General Chemistry Lab I

1

ME EN 1300

Statics & Strengths of Materials

4

Major Requirement

MATH 2270 & MATH 2280

Linear Algebra

3 MATH 2250 3

Ordinary Differential Equations & Linear Algebra

4

Ordinary Differential Equations

MATH 2210

Multivariable Calculus

3

Calculus III

3

ENGR 2030

Dynamics

3

MATH 2210 ME EN 2020**

Particle Dynamics

2

Major Requirement Major Requirement Major Requirement Major Requirement

PHYS 2210

3

ENGR 2300 Engineering Thermodynamics 3 ME EN 2300 Thermodynamics I ** ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour.







4 4

2

Dixie State University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Dixie State, students may take other courses identified to fulfill University requirements. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.

If you have further questions regarding this major, you may contact: Dixie State University: Dr. Victor Hasfurther (435) 652-7861, [email protected] University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • High school GPA (not required for applicants with 30+ post-secondary credits) • Standardized test scores (not required for applicants with 30+ post-secondary credits) • English proficiency scores (for international applicants) • AP credit • Cumulative post-secondary GPA (including concurrent or dual-program credits) • Grades in post-secondary technical courses • Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: No courses are currently listed as transferring from LDS Business College to satisfy specific requirements for this major.



LDS Business College offers Associate of Science in Business and General Studies degrees, which satisfy General Education requirements at the U. Within either degree, students may take other courses identified to meet requirements at the U.

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: LDS Business College: Academic Advising, (801) 524-8151 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change. Please note that LDSBC information reflects the 2014-2015 Year

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Salt Lake Community College to fulfill requirements the Mechanical Engineering major at the U. Students can complete the entire first two years of the Mechanical Engineering program at SLCC. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

Update 08/2016 Information is subject to change.

SLCC COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMEN T

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

4

MATH 1220

4

PHYS 2210

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

CHEM 1210

General Chemistry I

4

CHEM 1210

General Chemistry I

4

1

CHEM 1215

General Chemistry Lab I

1

3

ME EN 1000

Intro to Mechanical Design for Engineering Systems

3

0 3 0 3 2

ME 1010

Engineering Computing

3

ME EN 1300

Statics & Strength of Materials

4

3

MATH 2250

Ordinary Differential Equations & Linear Algebra

4

3

MATH 2210

3

ECE 2210

MSE 2160 ENGR 2020 & ENGR 2060

Multivariate Calculus Electrical Engineering for Non-Majors Elements of Material Science Engineering Dynamics I Dynamics II

3 2 2

ENGR 2300

Engineering Thermodynamics

ENGR 2450

Numerical Methods

PHYS 2210

CHEM 1215

General Chemistry Lab I Intro to Design in Engineering MEEN 1000* Systems & Intro to Design In Engineering MEEN 1005 Systems Lab ENGR 1030 & MatLab Problem Solving ENGR 1035 MatLab Problem Solving Lab ENGR 2010 & Statics ENGR 2140 Strength of Materials I ADDITIONAL MAJOR REQUIREMENTS: Linear Algebra/Differential Equations

MATH 2250 MATH 2210 EE 2210

MEEN 2650



Manufacturing *Formerly MEEN 1050

4 4

3

MSE 2160

Calculus III Electrical & Computer Engineering for Nonmajors Elements of Materials Science & Engineering

ME EN 2080

Dynamics

4

2

ME EN 2300

2

2

ME EN 2450

3

ME EN 2650

Thermodynamics I Numerical Methods for Engineering Systems Manufacturing for Engineering Systems

3 3

3 3

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

Salt Lake Community College offers an Associate of Pre-Engineering with an emphasis in Mechanical Engineering, which includes courses required for the Mechanical Engineering degree at the U. Note: The Associates in Pre-Engineering does not complete all of the general education requirements for a bachelor’s degree at the U of U. Students should obtain advising regarding general education requirements specific to Engineering majors at the U. An Associates of Science (A.S.) degree fulfills all of the general education requirements at the U



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Salt Lake Community College: Jeanne Westgard, SI 209 Taylorsville Redwood Campus, 801-957-

Update 08/2016 Information is subject to change.

4858, [email protected] University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division ( ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division ( ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Snow College to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at Snow that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

Update 08/2016 Information is subject to change.

SNOW COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

Calculus II

4

MATH 1220

4

Major Requirement

PHYS 2210

Physics for Scientists & Engineers I

4

PHYS 2210

4

Major Requirement

PHYS 2220

Physics for Scientists & Engineers II

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

1

Major Requirement

2 2 3

ME EN 1000

3

Major Requirement

ME EN 1300

General Chemistry Lab I Intro to Mechanical Design for Engineering Systems Statics & Strengths of Materials

4

Major Requirement

Ordinary Differential Equations & Linear Algebra

4

Major Requirement

ENGR 1000* Intro to Engineering ENGR 2010 & Statics ENGR 2140 Strength of Materials ADDITIONAL MAJOR REQUIREMENTS:

MATH 2250

Linear Algebra & Differential Equations

4

MATH 2250

MATH 2210

Multivariable Calculus

3

Calculus III

3

Major Requirement

ENGR 2030

Dynamics

3

MATH 2210 ME EN 2020**

Particle Dynamics

2

Major Requirement

ENGR 2300

Engineering Thermodynamics

3

ME EN 2300

Thermodynamics I Numerical Methods for Engineering Systems

2

Major Requirement

ENGR 2450 Numerical Methods 3 ME EN 2450 3 *Students must complete ME EN 1005 Cad Lab (Solidworks) at the U. ** ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour.

Major Requirement



Snow College offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending Snow College, students may take other courses identified to meet degree requirements at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Snow College: Brian Newbold, SCNCE 205, (435) 283-7535 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • High school GPA (not required for applicants with 30+ post-secondary credits) • Standardized test scores (not required for applicants with 30+ post-secondary credits) • English proficiency scores (for international applicants) • AP credit • Cumulative post-secondary GPA (including concurrent or dual-program credits) • Grades in post-secondary technical courses • Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Southern Utah University to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at SUU that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

Update 08/2016 Information is subject to change.

SUU COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

MATH 1220

4

MATH 1220

4

PHYS 2210

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

1 3

CHEM 1215

General Chemistry Lab I

1

ME EN 1300

Statics & Strength of Materials

4

PHYS 2210

CHEM 1215 Principles of Chemistry I Lab ENGR 2010 Statics & ENGR 2140 Strength of Materials ADDITIONAL MAJOR REQUIREMENTS:

3

MATH 2250

Linear Algebra & Differential Equations

4

MATH 2250

MATH 2210

Calculus III

4

MATH 2210

ENGR 3010

Material Science Engineering

3

ENGR 2030

Dynamics

ENGR 3000

Thermodynamics

Ordinary Differential Equations & Linear Algebra

4 4

4 3

MSE 2160

Calculus III Elements of Materials Science & Engineering

3

ME EN 2020*

Particle Dynamics

2

3

ME EN 2300

3

Thermodynamics I 2 Numerical Methods for MATH 3600 Numerical Analysis 3 ME EN 2450 Engineering Systems 3 * ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour.

  

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

While attending SUU, students may complete General Education requirements and courses identified to fulfill the University requirement. Students may also have a letter of completion sent from SUU, which states all general education requirements have been completed. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Southern Utah University: Student Development Center, (435) 586-5419 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • High school GPA (not required for applicants with 30+ post-secondary credits) • Standardized test scores (not required for applicants with 30+ post-secondary credits) • English proficiency scores (for international applicants) • AP credit • Cumulative post-secondary GPA (including concurrent or dual-program credits) • Grades in post-secondary technical courses • Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Utah State University/Utah State University Eastern to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at USU/USUE that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

Update 08/2016 Information is subject to change.

USU/USUE COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

4

MATH 1220

Major Requirement

4

PHYS 2210

4

Major Requirement

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

PHYS 2220

Calculus II General Physics: Science & Engineering I General Physics: Science & Engineering II

4

Major Requirement

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

Major Requirement

1

CHEM 1215

1

Major Requirement

2 2

ME EN 1000

General Chemistry Lab I Intro to Mechanical Design for Engineering Systems

3

Major Requirement

Statics & Strength of Materials

4

Major Requirement

4

Major Requirement

3

Major Requirement

3

Major Requirement

2

Major Requirement

2

Major Requirement

3

Major Requirement

3

Major Requirement

3

Major Requirement

PHYS 2210

CHEM 1215 Chemical Principles I Lab ENGR 1000* Intro to Engineering Design ENGR 2010 Engineering Mechanics Statics & ENGR 2140 Strength of Materials ADDITIONAL MAJOR REQUIREMENTS:

ME EN 1300 2

MATH 2250

Linear Algebra & Ordinary Differential Equations

3

MATH 2250

Ordinary Differential Equations & Linear Algebra

MATH 2210

Multivariable Calculus

3

MATH 2210

MAE 2160

3

MSE 2160

ENGR 2030

Material Science Engineering Mechanics Dynamics

Calculus III Elements of Materials Science & Engineering

3

ME EN 2020**

Particle Dynamics

MAE 2300

Thermodynamics I

3

ME EN 2300

Thermodynamics I Manufacturing for MAE 2650 Manufacturing Processes 3 ME EN 2650 Engineering Systems Engineering Numerical Numerical Methods for MAE 3210 Methods 3 ME EN 2450 Engineering Systems Fundamental Electronics for Electrical Engineering for ENGR 2210 Engineers 3 ECE 2210 Nonmajors * Students must complete ME EN 1005 Cad Lab (Solidworks) at the U of U **ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour.



While attending USU/USUE, students may complete General Education requirements and other courses identified to fulfill University requirements. Students may have a letter of completion sent from USU/USUE, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah State University: Kathy Bayn, ENGR 310, (435) 797-2705, [email protected] or The University Advising Center, Taggart Student Center 304 (435) 797-3373, www.usu.edu/transfer USU Eastern: Henry Zwick, (435) 613-5277 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Utah Valley University to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at UVU that must be taken at the U.

Update 08/2016 Information is subject to change.

PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

UVU COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 1210

Calculus I

5

MATH 1210

Calculus I

4

MATH 1220

5

MATH 1220

4

PHYS 2210

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

CHEM 1210

Principles of Chemistry I

4

CHEM 1210

General Chemistry I

4

CHEM 1215

Principles of Chemistry I Lab

1

CHEM 1215

1

ENGR 1000

Intro to Engineering Introduction to ElectroMechanical Systems Design Engineering Statics

3

ME EN 1000

General Chemistry Lab I Intro to Mechanical Design for Engineering Systems

3 3

CS 1000

Engineering Computing

3

ME EN 1300

Statics & Strength of Materials

4

Mechanics of Materials Computational Methods for ENGR 2450 Engineering Analysis ADDITIONAL MAJOR REQUIREMENTS:

3 ME EN 2450

Numerical Methods for Engineering Systems

3

MATH 2270 & MATH 2280

Linear Algebra

3

Ordinary Differential Equations

3

MATH 2210

Calculus III

ENGR 2300 ENGR 2030

PHYS 2210

ENGR 1030 ENGR 2010 & ENGR 2140

3

4 4

3

MATH 2250

Ordinary Differential Equations & Linear Algebra

4

3

MATH 2210

Calculus III

3

Engineering Thermodynamics

3

Thermodynamics I

2

Engineering Dynamics

3

ME EN 2300 ME EN 2020**

Particle Dynamics Elements of Material Science & ENGR 2160 Materials Science 3 MSE 2160 Engineering Fundamentals of Electric Circuit Electrical Engineering for ECE 2210 Analysis 3 ECE 2210 Nonmajors ** ME EN 2080 (4 credits) is required. See an advisor to learn how to fulfill the one missing credit hour.

2 3 3

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement

Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement Major Requirement



Utah Valley University offers A.A. and A.S. degrees, which satisfy General Education requirements at the U. Students may also obtain a letter of completion, which states all general education requirements have been completed. While attending UVU, students may also take other courses identified to meet graduation requirements at the U.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Utah Valley University: Andrew Gifford, CS 635, (801) 863-8350, [email protected] University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Weber State University to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at the Weber State that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

Update 08/2016 Information is subject to change.

WEBER COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERING REQUIREMENT

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 1210

Calculus I

4

MATH 1210

Calculus I

4

Major Requirement

MATH 1220

4

MATH 1220

Major Requirement

5

PHYS 2210

4

Major Requirement

5

4

Major Requirement

CHEM 1210

Principles of Chemistry I

5

PHYS 2220 CHEM 1210 & CHEM 1215

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II General Chemistry I

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4 1

Major Requirement

Intro to Engineering Statics Strength of Materials Materials Science & ENGR 2160 Engineering ADDITIONAL MAJOR REQUIREMENTS:

2 3 3

ME EN 1000

3

Major Requirement

4

Major Requirement

3

MSE 2160

Statics & Strength of Materials Elements of Materials Science & Engineering

3

Major Requirement

PHYS 2210

ENGR 1000* ENGR 2010 & ENGR 2140

ME EN 1300

General Chemistry Lab I Intro to Mechanical Design for Engineering Systems

MATH 2250

Linear Algebra & Differential Equations

3

MATH 2250

Ordinary Differential Equations & Linear Algebra

4

Major Requirement

MATH 2210

Calculus III

3

MATH 2210

Calculus III

3

Major Requirement

ENGR 2080

Dynamics

4

ME EN 2080

Dynamics

4

Major Requirement

ENGR 2300

Thermodynamics I

3

ME EN 2300

Thermodynamics I

2

Major Requirement

ECE 2210

Electrical Engineering

3

Major Requirement

ENGR 2210 Electrical Engr for Non-Majors 4 *Must take ME EN 1005 Cad Lab (Solidworks) at the U of U.



While attending Weber State, students may complete General Education requirements and other courses identified to fulfill University requirements. Students may also have a letter of completion sent from WSU, which states all general education requirements have been completed.



Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U.



If you have further questions regarding this major, you may contact: Weber State University: Academic Advisement, (801) 626-6752 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.

MECHANICAL ENGINEERING Mechanical Engineers look at the world and find ways to make things better. They play a role in creating almost every human-made device, product or systems- ranging from the Boeing 787 Dreamliner to a nerve-controlled prosthetic arm to mountain bikes or snowboards. Mechanical Engineering is the broadest of all the engineering disciplines. Areas of research include, but are not limited to: Biomechanics, Composite Materials, Controls, Design, Energy Systems, Ergonomics & Safety, Fluid Mechanics, Heat Transfer, Manufacturing, Microsystems & Nanosystems, Robotic, Solid Mechanics, and Thermodynamics. 

Admission Criteria: In order to take Mechanical Engineering (ME EN) courses and pursue a Bachelor of Science degree in Mechanical Engineering, a student must be admitted to the Mechanical Engineering program and accepted to either Intermediate or Full Major Status. See http://mech.utah.edu/academics/undergraduate/future-students/ for application deadlines. Admission is based on a collection of factors that may include: • • • • • • •

High school GPA (not required for applicants with 30+ post-secondary credits) Standardized test scores (not required for applicants with 30+ post-secondary credits) English proficiency scores (for international applicants) AP credit Cumulative post-secondary GPA (including concurrent or dual-program credits) Grades in post-secondary technical courses Personal statement

While a specific post-secondary GPA will not guarantee admission to the program, in the absence of other information, transfer students must have a minimum GPA of 3.0 to be considered. Students must be accepted to Intermediate Status in order to take lower division (ME EN 1000- 2999) coursework. Placement into MATH 1210/1310 Calculus I is required for acceptance to Intermediate Status. In general, freshman admits will be accepted to Intermediate Status. Transfer admits will also be accepted to Intermediate Status if they have not yet completed all of the following courses: ME EN 1000, 1010, 1300; MATH 1210, 1220; CHEM 1210, 1215; PHYS 2210. Students must be accepted to Full Major Status in order to take upper division (ME EN 3000- 5999) coursework. Acceptance to Full Major Status is based on completion of first-year courses (ME EN 1000, 1010, 1300; MATH 1210 or 1310, 1220 or 1320; CHEM 1210, 1215; PHYS 2210) with a GPA of 2.7 or higher and no individual grade below a C-. All courses must be taken for a letter grade. Courses may be repeated only once, and the second grade will replace the first grade. Students admitted into year three of the program should have completed all of the following courses: MATH 1210, 1220, 2210 and 2250; CHEM 1210 and CHEM 1215; PHYS 2210 and 2220; ME EN 1000, 1010, 1300, 2080, 2300, 2450, 2650; MSE 2160; ECE 2210, WRTG 2010. Transfer students are encouraged to meet with an Academic Advisor early to discuss appropriate choice and sequence of classes at the transfer institution. Students should pay particular attention to prerequisites, as these are being enforced for all College of Engineering classes via the online registration system. Students must maintain a cumulative University of Utah GPA of 2.5 or higher to remain in the Mechanical Engineering program. In addition, students must earn a C- or better in major courses, with only one repeat allowed per course. 

Transferring Courses: The following courses may be taken at Westminster College to fulfill requirements for the Mechanical Engineering major at the U. There are additional requirements not offered at Westminster College that must be taken at the U. PLEASE NOTE: The requirements listed as being satisfied in the following table are for this major only. If you change majors, these courses may not clear requirements for your new major.

Update 08/2016 Information is subject to change.

WESTMINSTER COURSE

COURSE TITLE

CR

U OF U COURSE

U OF U COURSE TITLE

CR

MECHANICAL ENGINEERIN G REQUIREMEN T

REQUIREMENTS FOR FULL MAJOR STATUS: MATH 201

Calculus I

4

MATH 1210

Calculus I

4

MATH 202

Calculus II Physics for Scientists & Engineers I & Lab Physics for Scientists & Engineers II & Lab

4

MATH 1220

4

4

PHYS 2210

4

PHYS 2220

Calculus II Physics for Scientists & Engineers I Physics for Scientists & Engineers II

4

Major Requirement Major Requirement Major Requirement Major Requirement

Principles of Chemistry I & CHEM 111 Lab ADDITIONAL MAJOR REQUIREMENTS:

4

CHEM 1210 CHEM 1215

General Chemistry I General Chemistry Lab I

4 1

Major Requirement

MATH 311& MATH 363

Linear Algebra II Differential Equations

4 4

MATH 2250

Ordinary Differential Equations & Linear Algebra

3

MATH 203

Multivariate Calculus

4

MATH 2210

Calculus III

3

PHYS 211 PHYS 212

  

4

Major Requirement Major Requirement

While attending Westminster College, students may complete General Education requirements and other courses identified to fulfill University requirements. Students are strongly encouraged to meet with a University of Utah departmental advisor before entering the U. If you have further questions regarding this major, you may contact: Westminster College: General Advising, (801) 832-2280 University of Utah: Dr. Debra Mascaro, 1560 MEK Advisors: Joy Velarde, (801) 581-8977 (Last Name A-L) Mark Mun, (801) 581-8234 (Last Name M-Z) www.mech.utah.edu

Update 08/2016 Information is subject to change.