Â鶹ֱ²¥'s Mechanical Engineering Program equips students with the essential knowledge, skills, and tools to excel in diverse industries such as manufacturing, energy, automotive, aerospace, and robotics. The program provides students with a solid foundation in math, science and computing, then trains students to use design software, analytical and experimental methods, and hands-on design to solve complex problems. The curriculum encompasses both traditional mechanical engineering foundation courses and cutting-edge topics (e.g. robotics, renewable energy) to equip students for careers in many fields.
Learning Outcomes
The student outcomes of a Bachelor of Science in Mechanical Engineering include:
- The ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
- An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
- To communicate effectively with a range of audiences
- To recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
- An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
- To develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
- To acquire and apply new knowledge as needed, using appropriate learning strategies.
Curriculum
To earn a Bachelor of Science degree in Mechanical Engineering, students must complete a minimum of 127 credits.
|
Math/Sciences |
ME Core |
ME Electives |
Capstone Design |
Gen Ed/Bridges |
Total |
|
33 |
60 |
6 |
6 |
25 |
130 |
Mathematics and Sciences Course Requirements (33 CR)
|
MATH 115 Calculus I |
4 |
CHEM 121 General Chemistry I/Lab/Rec |
5 |
|
MATH 116 Calculus II |
4 |
CHEM 122 General Chemistry II/Lab/Rec |
5 |
|
MATH 215 Calculus III |
4 |
PHYS 211 General Analytical Physics I/Lab |
4 |
|
MATH 314 Differential Equations |
3 |
PHYS 212 General Analytical Physics II/Lab |
4 |
Mechanical Engineering Course Requirements (72 CR including capstone)
|
Intro to Engineering |
3 |
Vibrations |
3 |
|
Programming for Engineers |
3 |
Manufacturing Engineering |
3 |
|
Engineering Design |
3 |
Mechatronics Engineering |
4 |
|
Electronics |
3 |
Heat Transfer |
4 |
|
Statics |
3 |
Mechanical Design |
3 |
|
Mechanics of Materials |
4 |
Fluid Mechanics |
3 |
|
Dynamics |
3 |
Control Systems |
3 |
|
Thermodynamics |
3 |
Thermal System Design |
3 |
|
Data Analysis |
3 |
Robotics |
3 |
|
Finite Element Analysis |
3 |
Total |
60 |
Mechanical Engineering Electives (Select two courses from the following) 6 credits)
|
Finite Element Analysis |
3 |
Aerospace Engineering |
3 |
|
Automotive Engineering |
3 |
Renewable Energy |
3 |
|
Nuclear Engineering |
3 |
Additive Manufacturing |
3 |
|
AI & Machine Learning |
3 |
Humanitarian Engineering |
3 |
|
Mechanical Engineering Capstone Design |
6 |
* |
* |
|
Capstone Design I |
3 |
Capstone Design II |
3 |
Gen Ed/Bridges Course Requirements (25 CR)
|
BRDG 101 Writing & Analysis |
3 |
Comm & Creat (BRCC)* |
3 |
|
BRDG 102 Writing & Literature |
3 |
Cultural Fluen (BRCF) |
3 |
|
BRDG 100 Research & Info Skills |
1 |
Ethical Reas (BRET) |
3 |
|
EQ xxx Essential Questions Sem |
3 |
Social & Hist (BRSH) |
3 |
|
BRDG 105 Intro to Ethical Reasoning |
3 |
THEO/PHIL as needed |
* |
*Students are required to take one of the following courses to fulfill their BRCC Bridges requirement: Communication for STEM (250W) or Scientific Writing (302W).