The academic content and curriculum of the Bachelor of Science in Electrical Engineering is designed to provide a broad engineering knowledge and generally covers a four-year period of study. The program aims to provide students with the theoretical knowledge and practical skills necessary to understand the fundamental principles and applications of electrical engineering.
Basic Sciences and Engineering Fundamentals: The first years of the program usually begin with basic science courses such as mathematics, physics and chemistry. These courses form the basis for the ability to analyze and solve engineering problems. Engineering fundamentals may include topics such as statics, dynamics, materials science and thermodynamics.
Electrical Circuits and Systems: Electrical circuit theory is a fundamental subject that develops students' ability to analyze and design electrical circuits. These courses include circuit elements, Ohm's Law, Kirchhoff's Law, AC/DC circuits and electronic circuit design.
Electronics and Microelectronics: This area covers topics such as semiconductor devices, digital and analog electronics, integrated circuits and microprocessors. Students gain in-depth knowledge of the design and operating principles of electronic systems.
Power Systems and Energy Management: Topics related to the generation, transmission, distribution and utilization of electrical energy are covered in this department. It includes power systems engineering, energy conversion, renewable energy sources and energy management.
Control Systems and Automation: These courses teach the fundamentals of control theory and automation systems. Students learn the automatic control of systems and the basics of robotic systems.
Telecommunications and Network Systems: This area includes topics such as signal processing, communication theory, wireless communication and network technologies. Students learn about data transmission and the design of network systems.
Laboratory Studies and Project-Based Learning: Laboratory courses and projects are important for putting theoretical knowledge into practice. Students develop the skills to solve real-world problems, work in teams and manage engineering projects.
Elective Courses and Specializations: In advanced years, students are offered the opportunity to specialize in certain areas. These elective courses may vary according to students' interests and career goals.
The curriculum provides students with a comprehensive education in the field of electrical engineering, while at the same time providing them with the necessary tools to keep abreast of modern technological developments and produce innovative solutions. This education also contributes to the development of students' skills such as critical thinking, problem solving, analytical thinking and teamwork.