This course is to introduce the fundamental concepts of applies electromagnetic by emphasizing physical understanding and practical applications in electronics. It deals with the study of vector algebra and calculus, static electric and magnetic fields and time varying electromagnetic fields.

This module provides the range of mathematical skills that are relevant to study in engineering at degree level. The module is studied during the first year of undergraduate engineering courses. Delivery is by a combination of lectures and tutorial sessions. It covers plane analytic geometry, the derivative, applications of derivative, integration, applications of integration, differentiation of transcendental functions, methods of integration, partial derivatives and double integrals, Taylor series and integrating combinations in differential equations.

This course is to introduce the basic concepts of microelectronic circuits. Brief semiconductor physics and the operational principals of active circuit elements such as diode, BJT, MOSFET are provided. Fundamental circuits of amplifiers using BJT and MOSFET, and also basic circuits using diodes are covered with the SPICE (circuit simulator) simulation.

This course is a continuation of the previous course EE 2102 Circuit Theory. The purpose of this course is to introduce students to the fundamental theory and mathematics for the analysis of Alternating Current (AC) electrical circuits, frequency response and transfer functions of circuits. The course also includes circuit theorem and reduction techniques, domain analysis, phasor analysis, basic filtering principles and applications, derivation of transient responses of RC and RL circuits, steady state response of circuits to sinusoidal excitation in time domain, application of phasors to circuit analysis and AC steady-state analysis.