 • test 1 (2005-Present) topics include balanced three-phase power, real power, reactive power, power factor correction, leading and lagging
• test 2 (2005-Present) topics include Bode plotting, cutoff frequency, break frequency, impedance, resonant frequency, resonance, filter analysis, low pass, high pass, band pass, band reject, advanced current division, advanced voltage division
• test 3 (2005-Present) topic include mutual inductance, self inductance, ideal transformers, hybrid transformers
• test 4 (2005-Present) topics include time constant, energy, power, first order transient analysis, RC circuits, RL circuits, sketching exponential responses, time constant with dependent supplies, parallel and series RLC transient analysis, overdamped, underdamped, critically damped, damping coefficient, resonant frequency, natural frequency, other higher-order RLC transient analysis
• test 5  (2005-Present) topics include circuit analysis using Laplace transform, initial value theorem, final value theorem, initial conditions and Laplace transforms, inverse Laplace transform, Fourier series, average value, fundamental frequency, harmonics, one-sided amplitude coefficients, odd symmetry, even symmetry, odd half-wave symmetry, even quarter-wave symmetry, odd harmonics, even harmonics, complex Fourier series, trigonmetric Fourier series,
• final (2005-Present) topics include circuit analysis using Fourier series (note:  this set of old tests is not complete)

As to be expected, my teaching style has changed over the years.  As a result, the following tests and problems, although again grouped according to subject matter, have different labeling schemes.

• topics 1 includes Bode plotting, cutoff frequency, break frequency, impedance, resonant frequency, resonance
• topics 2 includes cutoff frequency, filters, bandpass, bandreject, bandwidth, Q, quality factor
• topics 3 includes mutual inductance, self inductance, ideal transformers
• topics 4 includes time constant, energy, power, first order transient analysis, time constant with dependent supplies, parallel and series RLC transient analysis, overdamped, underdamped, critically damped, damping coefficient, resonant frequency, natural frequency other higher-order RLC transient analysis
• topics 5 includes unit steps and functions, derivative of unit steps delt functions, Laplace transform properties, partial fraction expansion, poles, zeros, transfer function, inital value theorem, final value theorem, circuit analysis using Laplace transforms

### Book on EMC crcpress.com