Industrial Engineering - Bachelor of Science in Industrial Engineering
Requirements (120 credits)
In addition to the university requirements for graduation, a student must have a 2.0 grade-point average in all departmental courses.
Students must complete all University degree requirements, which include: General Education requirements, Viewing a Wider World requirements, and elective credits to total at least 120 credits with 48 credits in courses numbered 300 or above. Developmental coursework will not count towards the degree requirements and/or elective credits, but may be needed in order to take the necessary English and Mathematics coursework.
Prefix | Title | Credits |
---|---|---|
General Education | ||
Area I: Communications | ||
English Composition - Level 1 | ||
ENGL 111G | Rhetoric and Composition | 4 |
English Composition - Level 2 | ||
ENGL 218G | Technical and Scientific Communication | 3 |
Oral Communication | ||
COMM 265G | Principles of Human Communication | 3 |
Area II: Mathematics | ||
MATH 191G | Calculus and Analytic Geometry I ^{1} | 4 |
Area III/IV: Laboratory Sciences and Social/Behavioral Sciences | 11 | |
General Chemistry I | 4 | |
Engineering Physics I and Engineering Physics I Laboratory | 4 | |
Principles of Macroeconomics | 3 | |
or ECON 252G | Principles of Microeconomics | |
Area V: Humanities ^{2} | 3 | |
Area VI: Creative and Fine Arts ^{2} | 3 | |
General Education Elective | ||
MATH 192G | Calculus and Analytic Geometry II | 4 |
Viewing A Wider World ^{3} | 6 | |
Departmental/College Requirements | ||
Program Specific Requirements | ||
Mathematics | ||
MATH 192G will count towards both the General Education Elective requirement and the Mathematics requirement for the department | ||
MATH 291G | Calculus and Analytic Geometry III | 3 |
MATH 392 | Introduction to Ordinary Differential Equations | 3 |
MATH 480 | Matrix Theory and Applied Linear Algebra | 3 |
or MATH 280 | Introduction to Linear Algebra | |
Natural Science Electives | 7-8 | |
General Chemistry II | 4 | |
Engineering Physics II | ||
Choose one from the following (3-4 credits): | ||
Introductory Geology | 4 | |
Cellular and Organismal Biology | 3 | |
Heat, Light, and Sound | 3 | |
Engineering Core | ||
ENGR 100 | Introduction to Engineering | 3 |
M E 159 | Graphical Communication and Design | 2 |
C E 233 | Mechanics-Statics | 3 |
or M E 236 | Engineering Mechanics I | |
CHME 361 | Engineering Materials | 3 |
Capstone Course | ||
ENGR 401 | Engineering Capstone I | 3 |
ENGR 402 | Engineering Capstone II | 3 |
Engineering Electives | 6 | |
Choose one from the following | ||
Mechanics-Dynamics | 3 | |
Mechanics of Materials | 3 | |
Mechanics-Dynamics | 3 | |
Engineering Mechanics II | 3 | |
Thermodynamics | 3 | |
Also, choose one 3 credit engineering course numbered 300 and above (to bring total to 6 credits) ^{4} | ||
Industrial Engineering | ||
I E 151 | Computational Methods in Industrial Engineering | 3 |
I E 217 | Manufacturing Processes | 2 |
I E 217 L | Manufacturing Processes Laboratory | 1 |
I E 311 | Engineering Data Analysis | 3 |
I E 316 | Methods Engineering | 3 |
I E 351 | Applied Problem Solving in Industrial Engineering | 3 |
I E 365 | Quality Control | 3 |
I E 413 | Engineering Operations Research I | 3 |
I E 423 | Engineering Operations Research II | 3 |
I E 424 | Manufacturing Systems | 3 |
I E 451 | Engineering Economy | 3 |
I E 460 | Evaluation of Engineering Data | 3 |
I E 467 | Discrete-Event Simulation Modeling | 4 |
I E 478 | Facilities Planning and Design | 3 |
Second Language: (not required) | ||
Electives, to bring the total credits to 120 | 0 | |
Total Credits | 120-121 |
^{1} | MATH 191G Calculus and Analytic Geometry I is required for the degree but students may need to take any prerequisites needed to enter MATH 191G first. |
^{2} | See the General Education Section of the catalog for a full list of courses. |
^{3} | See the Viewing a Wider World Section of the catalog for a full list of courses |
^{4} | Students are required to see the advisor for more detailed information about selecting engineering elective course that is approved to fulfill this requirement. |
A Suggested Plan of Study for Students
This roadmap is a semester-by-semester planning guide for Industrial Engineering major. It assumes student placement in MATH 191G (Calculus and Analytic Geometry I) and ENGL 111G (Rhetoric and Composition). The contents and order of this roadmap may vary depending on initial student placement in Mathematics and English. It is only a suggested plan of study for students and is not intended as a contract. Course availability may vary from semester to semester and may be subject to modification or change. Roadmaps should be reviewed in consultation with your advisor.
First Year | ||
---|---|---|
Fall | Credits | |
ENGL 111G | Rhetoric and Composition | 4 |
MATH 191G | Calculus and Analytic Geometry I ^{1} | 4 |
CHEM 111G | General Chemistry I | 4 |
ENGR 100 | Introduction to Engineering | 3 |
Credits | 15 | |
Spring | ||
MATH 192G | Calculus and Analytic Geometry II | 4 |
PHYS 215G | Engineering Physics I | 3 |
PHYS 215GL | Engineering Physics I Laboratory | 1 |
I E 151 | Computational Methods in Industrial Engineering | 3 |
M E 159 | Graphical Communication and Design | 2 |
Area V: Humanities Course ^{2} | 3 | |
Credits | 16 | |
Second Year | ||
Fall | ||
Choose one from the following: | 4 | |
General Chemistry II | ||
Engineering Physics II and Engineering Physics II Laboratory |
||
MATH 291G | Calculus and Analytic Geometry III | 3 |
C E 233 or M E 236 |
Mechanics-Statics or Engineering Mechanics I |
3 |
ENGL 218G | Technical and Scientific Communication | 3 |
Area VI: Creative and Fine Arts Course ^{2} | 3 | |
Credits | 16 | |
Spring | ||
ECON 251G or ECON 252G |
Principles of Macroeconomics or Principles of Microeconomics |
3 |
CHME 361 | Engineering Materials | 3 |
I E 311 | Engineering Data Analysis | 3 |
I E 217 | Manufacturing Processes | 2 |
I E 217 L | Manufacturing Processes Laboratory | 1 |
COMM 265G | Principles of Human Communication | 3 |
Credits | 15 | |
Third Year | ||
Fall | ||
MATH 392 | Introduction to Ordinary Differential Equations | 3 |
I E 316 | Methods Engineering | 3 |
I E 351 | Applied Problem Solving in Industrial Engineering | 3 |
I E 365 | Quality Control | 3 |
Choose one Engineering Elective Course ^{3} | 3 | |
Credits | 15 | |
Spring | ||
MATH 480 or MATH 280 |
Matrix Theory and Applied Linear Algebra or Introduction to Linear Algebra |
3 |
I E 451 | Engineering Economy | 3 |
I E 424 | Manufacturing Systems | 3 |
I E 460 | Evaluation of Engineering Data | 3 |
Viewing A Wider World Course ^{4} | 3 | |
Credits | 15 | |
Fourth Year | ||
Fall | ||
I E 413 | Engineering Operations Research I | 3 |
I E 467 | Discrete-Event Simulation Modeling | 4 |
ENGR 401 | Engineering Capstone I | 3 |
Choose one from the following: | 3-4 | |
Cellular and Organismal Biology | ||
Introductory Geology | ||
Heat, Light, and Sound | ||
Viewing A Wider World Course ^{4} | 3 | |
Credits | 16-17 | |
Spring | ||
I E 423 | Engineering Operations Research II | 3 |
I E 478 | Facilities Planning and Design | 3 |
Engineering Elective ^{5} | 3 | |
ENGR 402 | Engineering Capstone II | 3 |
Credits | 12 | |
Total Credits | 120-121 |
^{1} | MATH 191G Calculus and Analytic Geometry I is the starting Math course for the degree but students may need to complete any prerequisites prior to enrolling in this course depending on math placement. |
^{2} | See the General Education Section of the catalog for a full list of courses. |
^{3} | Engineering Electives: |
^{4} | See the Viewing a Wider World Section of the catalog for a full list of courses. |
^{5} | See your adviser for more detailed information about selecting the engineering elective course that is approved to fulfill this requirement. |