1.
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Determine the frequency and period of a periodic function. (I)
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2.
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Determine the peak, peak to peak, and RMS value of a sine wave. (I)
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3.
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Determine phase angles. (I, II, III, V)
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4.
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Define inductance. (II)
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5.
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Calculate inductive reactance. (II)
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6.
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Define capacitance. (III)
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7.
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Calculate capacitive reactance. (III)
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8.
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Use complex algebra, phasors, Ohm's Law and Kirchhoff's Voltage and
Current Laws to solve for impedance, current, voltage, and power in ac
series circuits. (IV)
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9.
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Use the Superposition Theorem, Thevenin's Theorem, and other circuit
analysis tools to solve for impedance, current, voltage, and power in
ac parallel and series-parallel circuits. (IV)
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10.
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Construct series, parallel, and series-parallel ac circuits. (IV)
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11.
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Measure the circuit parameters of resistance, current, voltage, and
power in series, parallel, and series- parallel circuits using an
oscilloscope. (V)
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12.
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Describe frequency response. (V)
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13.
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Describe low, high, and bandpass filters operation. (VI)
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14.
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Describe resonant circuits. (VI)
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15.
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Describe transient analysis of RC circuits. (VII)
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