Mechanical Engineering

img-me-photosEssential to industrial enterprise, mechanical engineering is versatile and continuously evolving. Mechanical engineers use their knowledge of design, energy and materials to ensure that objects function more efficiently to conserve resources.

MSOE offers a bachelor’s degree in mechanical engineering, with options to specialize in mechanical design, energy systems, materials and manufacturing and control systems. Mechanical engineering is one of the broadest engineering disciplines. As a result, MEs work in a large number of industries, including aerospace, utilities, construction, manufacturing, transportation, military and the government—just to name a few.

At MSOE, the breadth of the ME program is its strength. Students get a wide exposure to the four main areas of ME, with options to specialize in one or more. As a result, students are able to find jobs in a wide variety of industries and positions. ME students use their degrees in medical applications, robotic applications and everything in-between.

The results

The placement rate for MSOE mechanical engineering graduates was 97% in 2013-14, and graduates enjoyed an average starting salary of $57,664.

ME graduates started great careers with companies like:

  • IBM
  • DaimlerChrysler
  • Brady Corp
  • Caterpillar Inc.
  • Metal Tek

The field

Mechanical engineers (MEs) perform many tasks for many types of businesses. Want to build a robot? MEs do that. Want to build an all-terrain vehicle or a race car? MEs do that. Want to improve the seat design for a kayak? MEs do that, too. MEs look at the many parts of an object—a car, for example—and see how all the pieces can function together better to be more efficient and save energy. Since MEs specialize in a wide range of areas, they are employed in a large number of industries: aerospace, utilities, construction, manufacturing, transportation, military and the government, to name a few. And because MEs work with energy, they have great potential to positively affect the planet in coming years as they develop newer, cleaner means of producing energy.

You may want to consider ME if you …

  • Like to take things apart and put them back together
  • Enjoy using math in a practical way to solve problems
  • Have a strong interest in computing, and using computers to solve practical problems
  • Like the mechanics topics (force, torque and energy) in your physics classes

Curriculum Year by Year

At the end of this four-year program, you will know all the fundamentals of engineering and be able to apply them to new situations that arise on the job. You also will be well equipped to pursue graduate school if that is your preference.

Freshman Year

Begin learning about mechanical engineering. Get a broad-based education focused on mathematics, basic sciences and the humanities.

Sophomore Year

Move from the broad-based general education of freshman year to the highly focused mechanical engineering courses through advanced studies in mathematics and science, and a course sequence in engineering mechanics and systems.

Junior Year

Focus in-depth on each of the three branches of technical specialization: energy systems, materials/manufacturing and mechanical design.

Senior Year

Apply what you learned in the first three years to the design of mechanical and thermal systems, with special emphasis on technical electives and the senior design project. This group project puts your knowledge and skills to the test and results in a tangible product you can show potential employers.


This program is accredited by the Engineering Accreditation Commission of ABET, Read more here.

Program Director

Dr. Christopher Damm

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V.P. of Academics

Frederick Berry

V.P. of Academics


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