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  • Engineering Course

ELECTRICAL AND MECHANICAL ENGINEERING

  • 5 Colleges

Electrical and mechanical engineering includes designing, manufacturing, and maintaining a wide range of electrical and electronic devices, including engines, electrical items, consumer electronics, computers, and mobile phones.

ABOUT ELECTRICAL & MECHANICAL ENGINEERING

Electrical and mechanical engineering includes designing, manufacturing, and maintaining a wide range of electrical and electronic devices, including engines, electrical items, consumer electronics, computers, and mobile phones. Most modern engineering systems now include a combination of mechanical, electrical, electronic, computational, measuring, and control aspects, which are required to tackle new challenges in engineering innovation. Energy generation, hybrid gasoline/electric vehicles, aircraft design, satellite technology, robotic systems, and environmental technology are some examples. The multidisciplinary nature of modern engineering is reflected in this course, which covers major electrical and mechanical engineering subjects. Graduates with knowledge within and across the boundaries of both disciplines are in high demand. Because the degree is accredited by both the Institution of Engineering and Technology and the Institution of Mechanical Engineers, you will be able to pursue careers in either or both fields. Develop competence in mechanical, electrical, software, and control systems engineering over the course. This course is an evergreen course.

WHAT IS ELECTRICAL & MECHANICAL ENGINEERING?

In today's world, electromechanical systems are becoming increasingly important. And the importance of this diverse branch of engineering in satisfying the needs of our future civilization will only grow. Electromechanical engineers work on various projects, including energy generation, hybrid cars, aviation, and satellite technology. With the help of actual laboratory sessions, students will learn how to analyze and develop analogue and digital circuits for electronics and power applications. They also study the fundamental principles that underpin mechanical system and structure design, including dynamics, thermodynamics, and fluid mechanics. Mathematics and software engineering classes strengthen numerical and modelling skills, while a unique session teaches engineering industry ideas and practice broadens your understanding of the engineering profession. The curriculum focuses on gaining a deep technical knowledge of electromechanical system design and analysis. Students learn important skills for the engineering profession, including working in groups on actual design projects and giving oral presentations. By taking seminars in a variety of advanced disciplines, they will begin to build expert engineering abilities.

ELIGIBILITY AND CAREER IN ELECTRICAL & MECHANICAL ENGINEERING

Applicants must have completed 12th grade in Science or have earned an equivalent degree from a recognized institution. The candidate's merit in the national/university level entrance exam determines their admittance. Qualified candidates are invited to participate in the counselling process, during which they will be assigned seats in the program. Electrical and mechanical engineers are in more demand, which means that their careers will rise faster. After finishing, the candidate can work for the government or a private company or start their own business. In addition, the candidate can pursue a postgraduate degree at a foreign university. Electrical and mechanical engineering is no longer restricted to the design and testing of large machinery and equipment. With technological breakthroughs, many new sectors are being embraced by enthusiastic engineers. They include robotics, new materials, nanotechnology, computer-aided design, geomechanics, and other fields. Robotics and mechatronics are two of the most popular disciplines, as both mix electrical and mechanical engineering knowledge with other streams to produce cutting-edge solutions.

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