Discussion
Home ‣ Electrical Engineering ‣ Branch, Loop and Node Analyses Comments
- Question
When assigning branch currents, you need not be concerned with the direction you choose.
Options- A. True
- B. False
- Correct Answer
- True
- 1. Second-order determinants are evaluated by subtracting the signed cross-products.
Options- A. True
- B. False Discuss
- 2. The node voltage method is based on Kirchhoff's voltage law.
Options- A. True
- B. False Discuss
- 3. The mesh current method is based on Kirchhoff's current law.
Options- A. True
- B. False Discuss
- 4. Generally, the mesh current method results in fewer equations than the node voltage method.
Options- A. True
- B. False Discuss
- 5. A Wheatstone bridge is often shown in a "diamond" configuration.
Options- A. True
- B. False Discuss
- 6. A loop current is an actual current in a branch.
Options- A. True
- B. False Discuss
- 7. Third-order determinants are evaluated by the expansion method or by the cofactor method.
Options- A. True
- B. False Discuss
- 8. The mesh method can be applied to circuits with any number of loops.
Options- A. True
- B. False Discuss
- 9. The branch current method is based on Kirchhoff's voltage law and Kirchhoff's current law.
Options- A. True
- B. False Discuss
- 10. Faraday's law states that relative motion between a magnetic field and a coil induces a voltage across the coil.
Options- A. True
- B. False Discuss
Branch, Loop and Node Analyses problems
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Correct Answer: True
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