Physics is an important part of Engineering. Physics is a study of energy, matter, and their interactions. It plays an important role in the future progress of the humankind. Physics interconnects with many interdisciplinary research fields like biophysics, quantum chemistry, etc.
Physics is the mother of all sciences. Engineering is also a form of applied science with Physics as an important part. Initially, engineering education started with Mechanical and Civil engineering as the main branches. Both the streams are derivatives of Mechanics which in turn is a form of Physics. Hence, the two branches do not have any meaning without Physics. Civil engineering involves a major part of geology, which is also a derivative of Physics.
Another major part of engineering is Electrical engineering. This is a derivative of Electrical Physics. Since Electrical engineering leads to Electronics engineering and finally to Computer engineering and Information Technology, it can be concluded that the mother of all engineering branches is Physics. Recently, some other branches like Biomedical engineering and Bio-Technology have also been derived. These two streams are derivatives of Biology. Biology also has got thick links with principles of Physics. Both these branches are a blend of applied biology with principles of molecular physics. Thus, it is true that Physics has a significant role in Engineering.
Well, why not? . It has a very interesting curriculum and many exciting career prospects. The fact that it blends science and engineering make it a refreshing course when compared to the other mundane engineering programs. It not only equips you with necessary career skills but also caters to your love and thirst for science. If you feel that physics is your call, then you must definitely give a thought about pursuing this branch. Research well and make a well-informed decision. All the best!
After the completion of the course, the student will be able to
Interpret the fundamental concepts, principles, and theories of physics and their relevance in scientific and engineering applications.
Analyze mathematical and analytical methods to solve real-world engineering challenges.
Apply scientific methods and approaches in emerging technologies to solve engineering challenges.
Demonstrate the ability to communicate scientific concepts effectively through oral presentations, adapting to different audiences.
Develop analytical and experimental skills through critical thinking and hands-on laboratory experiments.
Investigate the impact of physics-based innovations on industry and society.
After the completion of the course, the student will be able to
Interpret the fundamental concepts, principles, and theories of physics and their relevance in scientific and engineering applications.
Analyze mathematical and analytical methods to solve real-world engineering challenges.
Apply scientific methods and approaches in emerging technologies to solve engineering challenges.
Demonstrate the ability to communicate scientific concepts effectively through oral presentations, adapting to different audiences.
Develop analytical and experimental skills through critical thinking and hands-on laboratory experiments.
Investigate the impact of physics-based innovations on industry and society.
After the completion of the course, the student will be able to
Interpret the fundamental concepts, principles, and theories of physics and their relevance in scientific and engineering applications.
Analyze mathematical and analytical methods to solve real-world engineering challenges.
Apply scientific methods and approaches in emerging technologies to solve engineering challenges.
Demonstrate the ability to communicate scientific concepts effectively through oral presentations, adapting to different audiences.
Develop analytical and experimental skills through critical thinking and hands-on laboratory experiments.
Investigate the impact of physics-based innovations on industry and society.
After the completion of the course, student will be able to
Interpret the fundamental concepts, principles, and theories of physics and their relevance in scientific and engineering applications.
Analyze mathematical and analytical methods to solve real-world engineering challenges.
Apply scientific methods and approaches in emerging technologies to solve engineering challenges.
Demonstrate the ability to communicate scientific concepts effectively through oral presentations, adapting to different audiences.
Develop analytical and experimental skills through critical thinking and hands-on laboratory experiments.
Investigate the impact of physics-based innovations on industry and society.
After the completion of the course, student will be able to
Interpret the fundamental concepts, principles, and theories of physics and their relevance in scientific and engineering applications.
Analyze mathematical and analytical methods to solve real-world engineering challenges.
Apply scientific methods and approaches in emerging technologies to solve engineering challenges.
Demonstrate the ability to communicate scientific concepts effectively through oral presentations, adapting to different audiences.
Develop analytical and experimental skills through critical thinking and hands-on laboratory experiments.
Investigate the impact of physics-based innovations on industry and society.