Electrical engineering is a discipline that focuses on the study, design, and application of electrical systems, electronics, and electromagnetism. It covers a wide range of topics, including circuit theory, power systems, control systems, telecommunications, signal processing, and embedded systems. The course combines theoretical knowledge with practical applications, equipping students with skills in designing and analyzing electrical and electronic devices. 

Students learn about electrical circuits, digital and analog electronics, microprocessors, and power generation, transmission, and distribution. The curriculum often includes subjects like mathematics, physics, programming, and automation to provide a strong foundation in problem-solving and innovation. Modern advancements in technology, such as renewable energy, robotics, artificial intelligence, and the Internet of Things (IoT), have expanded the scope of electrical engineering, making it an essential field in today’s technological landscape. 

Through laboratory experiments, hands-on projects, and industry internships, students gain practical experience in working with electrical components, designing control systems, and developing efficient energy solutions. The course also emphasizes safety, ethical considerations, and sustainability in engineering practices. Graduates of electrical engineering can pursue careers in diverse industries, including power generation, telecommunications, automation, aerospace, and consumer electronics, or continue with further research and innovation in emerging technologies.