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Electrical Engineering
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Branch, Loop and Node Analyses
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Question
Generally, the mesh current method results in fewer equations than the node voltage method.
Options
A. True
B. False
Correct Answer
False
Branch, Loop and Node Analyses problems
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1. A Wheatstone bridge is often shown in a "diamond" configuration.
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A. True
B. False
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Correct Answer: True
2. To derive 18 V and 12 V from a 24 V supply requires a voltage divider with three taps.
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A. True
B. False
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Correct Answer: True
3. Using the current-divider formula, you can find the current in any branch of a series-parallel circuit.
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A. True
B. False
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Correct Answer: True
4. Using Kirchhoff's voltage law, you can find the voltages across certain parts of a series-parallel circuit.
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A. True
B. False
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Correct Answer: True
5. A smaller-value load resistor will cause the output voltage to change more than a larger-value one.
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A. True
B. False
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Correct Answer: True
6. The mesh current method is based on Kirchhoff's current law.
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A. True
B. False
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Correct Answer: False
7. The node voltage method is based on Kirchhoff's voltage law.
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A. True
B. False
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Correct Answer: False
8. Second-order determinants are evaluated by subtracting the signed cross-products.
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A. True
B. False
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Correct Answer: False
9. When assigning branch currents, you need not be concerned with the direction you choose.
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A. True
B. False
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Correct Answer: True
10. A loop current is an actual current in a branch.
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A. True
B. False
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Correct Answer: False
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