Engineering Technology Management, Bachelor of Science (B.S.) and Technology Management Master of Science (M.S.) [Manufacturing Concentration] Combination 3+2 Program
Students accepted to the 3+2 Accelerated Dual Degree Program are able to complete their B.S. degree and M.S. degree within five calendar years because of the accelerated curriculum and because nine semester hours of graduate coursework will apply to both the undergraduate B.S. degree and the graduate M.S. degree. Only undergraduate students of proven academic ability will be considered for the program. Students should be aware that, in order to maintain their progress in the accelerated 3+2 program, careful coordination with their advisor is required. Depending upon undergraduate progress at the time of 3+2 admission, some summer-school classes may be needed.
Graduates of the Engineering Technology Management program are prepared for many professional roles in technology-related businesses. These roles offer many opportunities to pursue exciting, challenging and rewarding careers that require technical knowledge and managerial skills. The B.S.-Engineering Technology Management program prepares individuals for entry-level positions that include manufacturing engineer, production engineer, industrial supervisor, industrial engineer, industrial technician, and quality engineer.
Engineering Technology Management graduates will be able to relate terminology, techniques and methodology to technical managerial concepts; demonstrate the ability to formulate and apply technical problem-solving and managerial concepts; and apply the concepts of mathematics and the physical sciences to solve technical problems. The B.S.-Engineering Technology Management 3+2 program is accredited by the Association of Technology, Management, and Applied Engineering (ATMAE).
Admission Requirements
Students seeking to enroll in a Combination 3 + 2 Program must satisfy all of the following conditions:
1) Junior or Senior in class standing
2) Undergraduate GPA of 3.0 or above
3) Maintain an overall undergraduate and graduate GPA of at least 3.0 to continue in the Combination 3 + 2 option
4) Approval from the department and Graduate School
To apply students may visit the Graduate School's website.
*Please note, enrollment in a Combination 3 + 2 undergraduate program does not equate to acceptance to the master's degree program. Students must submit an admissions application to begin the master's degree program.
Program Requirements
CIP Code: 15.1501
Major
| Code | Title | Hours |
|---|---|---|
| University Graduation Requirements | ||
| General Education | 36 | |
| Student Success Seminar | ||
| SCO 100 | Student Success Seminar (waived for transfers with 30+ hours) | 1 |
| Upper division courses (42 hours distributed throughout Major/Supporting/Gen Ed/Free Electives categories) | ||
| Major Requirements | ||
| Core Courses | ||
| AEM 195 | Computer Aided Drafting | 3 |
| AEM 202 | Introduction to Quality | 3 |
| AEM 308 | Methods of Lean Operations | 3 |
| AEM 310 | Technical Communication | 3 |
| AEM 332 | Process Control and Auditing | 3 |
| AEM 349 | Applied Learning in Industrial Technology | 1 |
| AEM 408 | Human Resource Development | 3 |
| AEM 499 | Senior Capstone Project | 3 |
| AEM 706 | Six Sigma Quality | 3 |
| AEM 801 | Economics for Lean Operations | 3 |
| AEM 804 | Project Management | 3 |
| STA 215 | Introduction to Statistical Reasoning | 3-4 |
| or STA 270 | Applied Statistics | |
| TEC 161 | Computer Applications in Technology | 3 |
| Concentrations | ||
| Students must select one of the following Concentrations: | 30 | |
Manufacturing | ||
Technology | ||
| Supporting Course Requirements | ||
| Choose from one of the following: | ||
| Introductory Chemistry and Introductory Chemistry Lab (Element 4) G | ||
| General Chemistry and General Chemistry Lab I (Element 4) G | ||
| Choose from 0-3 hours of the following: | 0-3 | |
| Economic Reasoning and Issues (Element 5B) G | ||
| Fundamentals of Microeconomics (Element 5B) G | ||
| Survey of Accounting | ||
| Choose from 3-6 hours of the following: | 3-6 | |
| Trigonometry (Element 2) G | ||
| Applied Calculus | ||
MAT 261 | ||
Or choose six hours of higher-level MAT courses | ||
| College Physics I (Element 4) G | ||
| Exit Requirements | ||
| Students must take an AEM assessment examination before graduation (CR only, no hours). An exam fee is required. | ||
| AEM 467 | Comprehensive Exam for BS in ETM | 0 |
| Free Electives | 6-10 | |
| Total Hours | 120 | |
- G
Course also satisfies a General Education element. Hours are included within the 36 hr. General Education requirement above. A maximum of six hours can apply toward Element 4.
Concentration
| Code | Title | Hours |
|---|---|---|
| Concentration Courses | ||
| AEM 201 | Metallic Material Processes | 3 |
| AEM 301 | Non-Metallic Material Processes | 3 |
| AEM 330 | Material Testing and Metrology | 3 |
| AEM 352 | Robotics and Automated Systems | 3 |
| AEM 371 | Hydraulics and Pneumatics | 3 |
| AEM 390 | 3-D Parametric Solid Modeling | 3 |
| EET 251 | Electricity and Electronics | 3 |
| Technical Electives | ||
| Choose from nine hours of the following: (six hours must be upper division) | 9 | |
| Reliability and Sampling | ||
| Advanced Material Processing | ||
| CAD/CAM Integration | ||
| Computer Aided Machine Drawing | ||
| Special topics in AEM:__ | ||
| Advanced Machine Drawing | ||
| Design of Experiments | ||
or STA 585 | Experimental Design | |
| Statics and Strength of Materials | ||
| Digital Electronics | ||
| Electronic Devices and Circuits | ||
| Programmable Logic Controllers | ||
| LANs & PC Communications | ||
| Wired/Wireless Communications | ||
| Total Hours | 30 | |