Mechanical engineering is an engineering discipline that applies the principles of physics and materials science for analysis, design, manufacturing, and maintenance of mechanical systems. It is the branch of engineering that involves the production and use of heat and mechanical power for the design, production, and operation of various machines, tools, mechanical devices and systems. Subsequently, it is divided into branches such as mechanical systems, control engineering, power engineering.Mechanical engineers are involved in developing machinery for many industries from large industrial robots to precise machine tools used to produce computer chips and other digital electronic components. The common feature of these machines is that they use a mechanical transmission to transmit rotational or linear force from one part to another. Examples include tractors, electric generators, pumps and compressors.
In addition to controlling energy use in buildings through HVAC design and construction methods that can reduce energy consumption by 20 percent or more over conventional construction methods, mechanical engineers also play vital roles in designing vehicles with better fuel economy through improved aerodynamics.
Ms In Mechanical Engineering In Usa Without Gre
A Master of Science in Mechanical Engineering is a graduate degree that trains students to innovate, develop and design mechanical systems.
The degree can be earned in two or four years, depending on the institution. The average length of study for a Master of Science in Mechanical Engineering is two years.
A Master of Science in Mechanical Engineering can provide students with an opportunity to gain knowledge and skills related to engineering principles and applications, as well as prepare them for careers in research and development. This type of program may also help students learn how to solve problems, work efficiently and communicate effectively.
The following are some possible areas of study:
Mechanical system design: Students will learn about mechanical systems such as engines, pumps and compressors. They may also study thermal systems, lubrication systems and combustion systems. In addition to these topics, students may also learn about robotics, energy conversion or machine dynamics.
Thermal and fluid sciences: Students may learn about heat transfer processes such as conduction, convection and radiation; compressible flow; incompressible flow; thermodynamics; transport phenomena; hydrodynamics; microfluidics; thermal fluids; heat transfer theory; thermophysical properties of gases; thermophysical properties