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Part 1 Techniques: trigonometric functions and general formulae - de Moivre's theorem, Euler's relation, Cauchy-Riemann equations, Laplace's equation; calculus; series and transforms - Taylor's series, Maclaurin's series, Laurent's series, Fourier series, matrices and determinants; electric, circuit theory, Kirchoff's laws, Thevenin's theorem and Norton's theorem; statistics. Part 2 Physical phenomena: quantities and units; electricity; light; radiation; the lonosphere and the troposphere. Part 3 Materials and components: resistive materials and components; dielectric materials and components; magnetic materials; inductors and transformers; relays; piezoelectric materials and components; connectors; printed circuits; power sources; discrete semiconductors; microwave semiconductor devices; optical sources and detectors; displays; integrated circuit fabrication and packaging; hybrid integrated circuits; digital integrated circuits; linear integrated curcuits; semiconductor memories; microprocessors; electron valves and tubes; transducers. Part 4 Electronic design: filters; attenuators; electronic design; amplifiers; modulators and detectors; waveform generators; rectifier circuits; power supply circuits; naturally commutated power circuits; forced commutated power circuits; instrumentation and measurement; electron microscopy; control systems; digital system analysis; antennas and arrays; noise management in electronic hardware; noise and communication; computer aided design; television and sound broadcasting. Part 5 Applications: communication satellites; point-to-point communication; fibre-optic communication; the integrated services digital network (ISDN); local area networks; radar systems; computers and their application; videotape recording; office communications; medical electronics.