1.
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Define the electrical quantities of charge, potential difference,
current, and resistance, giving the standard unit in which each is
measured. (I)
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2.
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Identify common electrical and electronic components and their
corresponding shematic symbols. (II)
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3.
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Construct simple series DC networks and simple parallel DC networks;
measure voltages, currents, and resistances using the appropriate test
equipment. (III)
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4.
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Derive and apply the various forms of Olm's law and the power formulas
in solving simple DC circuits. (IV)
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5.
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Calculate equivalent resistance and voltage distribution in simple
series DC circuits, using Kirchhoff's current law. (V)
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6.
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Calculate equivalent resistance and current distribution in a simple
parallel DC circuit, using Kirchhoff's current law. (VI)
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7.
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Compute voltages, currents, and power values in simple series and
simple parallel DC circuits. (V, VI)
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8.
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Define the principles of magnetic fields, electromagnetic induction,
self and mutual inductance, and transformer action. (VI, VII, VIII)
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9.
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Describe motor and generator action in terms of fundamental magnetic
principles. (IX)
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