Electrical engineering is the study of generation of electrical power from other forms of power (mainly heat, but now including mechanical systems such as wave and wind), its transmission from one place to another, and its use, both industrial and domestic.
An "Electrical Machines" course typically provides a comprehensive introduction to the principles, operation, and applications of various electrical machines, including transformers, DC machines, induction machines, and synchronous machines, focusing on both theoretical knowledge and practical applications.
An Electromagnetic Field Theory course typically covers the fundamental principles of electromagnetism, including Maxwell's equations, static and dynamic fields, wave propagation, and applications in various engineering fields.
As part of the course, students will develop Maxwell's Equations from electric and magnetic field experimental laws. This course will also cover wave propagation in free space and in transmission lines and characteristics of radiating structures such as antennas.
Mathematics is the science and study of quality, structure, space, and change. Mathematicians seek out patterns, formulate new conjectures, and establish truth by rigorous deduction from appropriately chosen axioms and definitions.
Welcome to this unit on power electronics, This unit will equip you with knowledge and skills on how different electronics components behave and also there funtions.
The electrical power system is a complex network consisting of generators, loads, transmission lines, transformers, buses, circuit breakers, etc. For the analysis of a power system in operation, a suitable model is needed. This model basically depends upon the type of problem on hand.
