Objective:
In this course students learn the theory and analysis of the electromagnetic fields and transmission lines.
Synopsis:
Vector Analysis(Review)
Vector and scalar quantities, Gradients, Curls, Laplacian, Divergiences and Stoke's law.
Electrostatic Fields
Basic Laws: Coulomb, Gauss, Electric flux density, Electric field intensity, and Electric potential. Laplace and Poisson equations, boundary's conditions, Electrostatics field in dielectric materials, Capacitance. Energy in electrostatic fields.
Magnetostatic Fields
Biot-Savart's law,Ampere's law, magnetic flux density, magnetic field intensity and magnetic pontential, boundary's conditions.
Theoretical and Application of Transmission Lines
Equivalent circuits, generalized equations for currents and voltages, waves and transients characteristic in transmission lines, power in transmission lines, impedance matching techniques using Smith Chart.
References:
- Marshall and Skitek, "Electromagnetic Concepts & Applications", Prentice Hall, 1990
- John Kraus, "Electromagnetics with Applications", 5th ed., Mc Graw Hill, 1999.
- Syed Idris Syed Hassan, "Teori Medan Elektromagnet", USM, 1995
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