 Study of vibrational phenomena with one or more degrees of freedom. Concept of impedance, resonance phenomenon.
 Highlighting the analogy between mechanical, electrical and electromechanical oscillators. Phase velocity, group velocity, dispersion. Characteristic impedance. Doppler effect which will be reviewed within the framework of the theory of relativity.
 Introduce the student to the study of the propagation of mechanical waves…etc.

This course on Energy and Environment provides a comprehensive exploration of the intricate relationship between energy systems and the environment. Delving into various energy resources, including traditional and renewable sources, the curriculum addresses the challenges and opportunities associated with their utilization. The course navigates through key aspects such as Energy Storage, examining innovative technologies for storing and managing energy effectively. A significant focus is placed on Energy Consumption, Reserves, and Trends, aiming to equip students with insights into global energy demands, the availability of reserves, and emerging trends shaping the energy landscape. Additionally, the course delves into the exploration of Different Types of Pollution, unraveling the environmental impact of various pollutants and their sources. A critical dimension of the course is the examination of the Impact of Pollution on Health and the Environment. Through case studies and interdisciplinary perspectives, students will gain an understanding of the far-reaching consequences of pollution, both on human health and the broader ecosystem. By the end of the course, participants will possess a holistic understanding of the complex interplay between energy dynamics and environmental sustainability. This knowledge will empower them to critically assess the environmental implications of energy systems and contribute to the development of sustainable practices for a cleaner, healthier future.

This advanced course in Electrical Engineering provides a comprehensive overview of the diverse domains within the Electrical Engineering family, including Electronics, Electrotechnics, Automation, Telecommunications, and more. Participants will delve into the intricacies of each subfield, gaining insights into the principles, applications, and cutting-edge developments that characterize modern Electrical Engineering. The course aims to explore the Impact of Electrical Engineering on the development of society, tracing the evolution and revolutionary advancements in key areas. Emphasis will be placed on the transformative role of Microelectronics, where participants will explore the latest breakthroughs shaping the landscape of electronic devices and integrated circuits. Automation and Supervision will be examined in detail, uncovering the role of Electrical Engineering in creating intelligent systems that enhance efficiency and productivity across various industries. The integration of Robotics into modern processes will be discussed, showcasing the interdisciplinary nature of Electrical Engineering in driving innovation. The course will also highlight the pivotal role of Electrical Engineering in the Development of Telecommunications, investigating the evolution of communication technologies and their profound impact on global connectivity. Moreover, participants will explore the critical role of instrumentation in Healthcare development, examining how Electrical Engineering contributes to advancements in medical diagnostics and treatment modalities. Throughout the course, participants will engage in discussions, case studies, and practical applications to deepen their understanding of the state-of-the-art technologies shaping the field. By the conclusion of the course, students will be equipped with a nuanced perspective on the current landscape of Electrical Engineering and its significant contributions to societal development.