Although the study and application of engineering physics may seem like a student’s technical nightmare, it is, in fact, a broad field with limitless applicability in today’s technological world.
Let’s see what it takes to understand Engineering Physics.
This field of physics combines the traits of several different scientific and mathematical disciplines in order to more readily solve and explain many of the theoretical and fundamental concepts in relation to the interdisciplinary field of engineering physics.
A Basic Definition
Engineering physics is the study of the combined disciplines of engineering, physics, and math in an effort to more readily understand concepts such as the dynamics of electricity, magnetism, statics, material durability, thermodynamics, and fluid dynamics.
In addition, engineering physics also builds on the principle fundamentals of subjects such as space science, superconductivity, optical materials, and nuclear engineering.
Real-World Applicability
This type of engineering is important because it creates a greater understanding of the physical and environmental world in which we live. Everything around us is changing rapidly; just look at how solar energy is taking over fossil fuels. In fact, the concentrated study of engineering and physics simultaneously provides individuals with amazing problem-solving abilities in broad-spectrum areas such as industrial and environmental research.
It is related to Mechanical Engineering and by understanding these processes and the complexities in which they interact, students are able to showcase advanced problem-solving abilities along with an in-depth set of analytical thinking skills that are sure to impress any would-be employers.
Designing and Creating a Safer Environment
The study of engineering physics also prepares individuals seeking to enter the building and architectural industry. Because physics is such an intricate part of the building process, individuals trained in this field are able to go on to design and build structures such as bridges, buildings, and vehicles.
In addition to building and creating, some engineering groups have recently begun an environmental initiative to create alternative fuel sources in order to potentially alleviate the emerging energy crisis currently gripping the nation. Here is also an interesting post on a few startups that really are worth watching!
Engineering and Aerospace
One of the major areas in which engineering and physics merge is in the aerospace industry. For example, engineers specializing in in-flight technology work to create aircraft that function within and outsides of atmospheric conditions.
In this field, engineers design and develop aeronautical machinery, space shuttles, satellites, and many other types of spacecraft. In fact, engineering physics is also used to design, build, and analyze electro-mechanical systems by incorporating complicated measurements, communications, and data acquisition.
Working in the Industry
Individuals with this type of degree can go on to work in virtually any field in which high tech industries merge with other scientific and mathematical areas. In Georgia, for example, the demand for mechanical engineers is high, leading to many more well-paying positions, just like all across the nation.
Because of this diversity across multiple areas of study, engineering physicists can go on to work in such areas as applied physics or science with positions in industry, national research laboratories, universities, or even as scientific entrepreneurs.
Although it is a complex field of study, the interdisciplinary methodology of engineering physics provides individuals eager for a challenge with the opportunity to work with cutting-edge technology. They are also provided the chance to create and implement technological advancements that are beneficial not only to mankind but to the environment as well.