BS in Mechanical Engineering
Mechanical Engineering
Mechanical engineering, in combining a variety of disciplines like physics and materials science, is concerned with the development, application and management of machines. With the planning and development of machines themselves, mechanical engineers often work on issues related to energy, which include low-cost energy conversion from natural resources and managing energy systems, machines, and resources. Outside of energy, mechanical engineers also deal with the design and production of automated machines, as well as the processing of materials into the commercial and industrial products of tomorrow.
Accreditation
The program leading to the Bachelor of Science degree in Mechanical Engineering (BSME) is accredited by the Engineering Accreditation Commission of ABET, under the commission’s General Criteria and Program Criteria for Mechanical Engineering.
Careers
As a graduate, you will be equipped with the skills necessary for successful professional practice or advanced studies. Many students are offered employment by industry leaders even before they graduate.
Employment opportunities exist in a multitude of areas including:
- Mechanical and Systems design
- Manufacturing
- CAD/CAM
- Production Management
Preparation
- Four years of high school math, including trigonometry and preferably introductory calculus
- One year each of high school physics and chemistry
- Effective communication skills
Curriculum
The curriculum emphasizes both analysis and design, and accompanying laboratory courses provide you with hands-on experience. You will complete courses in the integrated design of mechanical and thermal systems, take a capstone laboratory course, and have the opportunity to participate in engineering internship programs during your academic career. The WSU Catalog has specific requirements and current four-year schedule of studies for Mechanical Engineering.
Course Syllabi
Download the most recent syllabi for the core courses in the Mechanical Engineering program.
- ME 116 Engineering Computer-Aided Design and Visualization (PDF)
- ME 212 Dynamics (PDF)
- ME 216 Integrated CAD Design (PDF)
- ME 220 Materials Laboratory (PDF)
- ME 241 Engineering Computations (PDF)
- ME 301 Fundamentals of Thermodynamics (PDF)
- ME 303 Fluid Mechanics (PDF)
- ME 304 Heat Transfer (PDF)
- ME 306 Thermal and Fluids Laboratory (PDF)
- ME 312 Manufacturing Engineering (PDF)
- ME 313 Engineering Analysis (PDF)
- ME 316 Mechanical Component Analysis and Design (PDF)
- ME 348 Dynamics Systems (PDF)
- ME 401 Mechatronics (PDF)
- ME 405 Thermal Systems Design (PDF)
- ME 406 Experimental Design (PDF)
- ME 413 Mechanics of Solids (PDF)
- ME 415 Engineering Design (PDF)
- ME 416 Mechanical Systems Design (PDF)
- ME 419 Air Conditioning (PDF)
- ME 432 Wind Energy Engineering (PDF)
- ME 436 Combustion Engines
- ME 439 Applied Aerodynamics (PDF)
- ME 461 Introduction to Nuclear Engineering (PDF)
- ME 462 Introduction to Nuclear Engineering II
- ME 466 Fundamentals of Engineering Examination Review (PDF)
- ME 474 Design for Manufacture and Modern Manufacturing Strategies (PDF)
- ME 475 Manufacturing Enterprise Systems – Automation and Product Realization (PDF)
- ME 481 Control Systems (PDF)
- ME 485 Intro to Robotics and Artificial Intelligence (PDF)
Financial Support
Scholarships and other opportunities are available to help students finance their college education.