The degree includes courses in computer-based modeling, advanced mechanics of materials, control of dynamics systems, thermo-fluids, and mechanical behavior of materials as well as a limited number of ...

Mechanical Engineering applies the fields of physics, mathematics, and materials science to the design and realization of mechanical and thermal systems. For over a century mechanical engineers have ...

and Mechanical Behavior of Materials as well as additional courses in mechanical engineering, science, mathematics, and computer engineering. Both a research-based thesis option and a project-based ...

They apply the laws of maths and physics to create everything from handheld consumer devices to ... this is the subject for you. The research in mechanical engineering covers diverse topics, such as ...

The Master's degree programme integrates in-depth knowledge from core areas of mechanical engineering – such as mechanics, thermodynamics, fluid dynamics, materials and manufacturing science, control ...

The mechanical engineering degree provides tremendous flexibility to customize the curriculum to the student's interests and professional goals. This flexibility also reflects the expertise of the ...

The most common dual degree combinations with applied mathematics are from within the McCormick School of Engineering: chemical engineering, industrial engineering, biomedical engineering, materials ...

The bachelor's degree in mechanical engineering is broadly designed to accommodate a variety of career goals. Students take a core of required courses in engineering, the humanities, mathematics and ...

Lower-division courses concentrate on math, science, and introductory engineering courses; building competence in these cornerstone areas for future application in upper-division engineering courses.

Mechanical and electrical engineering graduates will be able to innovate technologies in a range of ... In year one you will study and practice the fundamental mathematics engineers need to describe ...