MCQOPTIONS
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MCQOPTIONS
This section includes 16 Mcqs, each offering curated multiple-choice questions to sharpen your Network Theory Questions and Answers knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
Find the voltage across 2Ω resistor in the circuit shown below using Superposition theorem. |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | 4 |
| Answer» D. 4 | |
| 2. |
Find the voltage across 2Ω resistor due to 20V source in the following circuit. |
| A. | 0.5 |
| B. | 0 |
| C. | 1 |
| D. | 1.5 |
| Answer» E. | |
| 3. |
Find the voltage across 2Ω resistor due to 20V source in the circuit shown below. |
| A. | 1 |
| B. | 1.5 |
| C. | 2 |
| D. | 2.5 |
| Answer» C. 2 | |
| 4. |
In the figure shown below. Find the voltage across 2Ω resistor due to all source using Superposition theorem. |
| A. | 3.41 |
| B. | -3.41 |
| C. | 3.14 |
| D. | -3.14 |
| Answer» C. 3.14 | |
| 5. |
Find the voltage across 2Ω resistor due to 2A source in the following figure. |
| A. | -1 |
| B. | 1 |
| C. | 1.46 |
| D. | -1.46 |
| Answer» E. | |
| 6. |
Find the voltage across 2Ω resistor due to 20V source in the following figure. |
| A. | -2.92 |
| B. | 2.92 |
| C. | 1.92 |
| D. | -1.92 |
| Answer» B. 2.92 | |
| 7. |
Consider the circuit shown below. Find the voltage across 2Ω resistor due to the 10V voltage source using Superposition theorem. |
| A. | 0 |
| B. | 1 |
| C. | 2 |
| D. | 3 |
| Answer» C. 2 | |
| 8. |
In the circuit shown, find the current through 4Ω resistor using Superposition theorem. |
| A. | 4 |
| B. | 5 |
| C. | 6 |
| D. | 7 |
| Answer» C. 6 | |
| 9. |
Find the voltage Vab in the circuit shown above using Superposition theorem. |
| A. | 4∠0⁰ |
| B. | 50∠0⁰ |
| C. | 54∠0⁰ |
| D. | 46∠0⁰ |
| Answer» C. 54∠0⁰ | |
| 10. |
Determine the voltage Vab considering the source 4∠0⁰A in the circuit shown above. |
| A. | 46∠0⁰ |
| B. | 4∠0⁰ |
| C. | 54∠0⁰ |
| D. | 50∠0⁰ |
| Answer» C. 54∠0⁰ | |
| 11. |
Determine the voltage Vab considering the source 50∠0⁰V. |
| A. | 50∠0⁰ |
| B. | 4∠0⁰ |
| C. | 54∠0⁰ |
| D. | 46∠0⁰ |
| Answer» B. 4∠0⁰ | |
| 12. |
Find the voltage across (2+j5) Ω impedance using Superposition theorem. |
| A. | 40.85∠72.53⁰ |
| B. | 40.85∠-72.53⁰ |
| C. | 41.85∠72.53⁰ |
| D. | 41.85∠-72.53⁰ |
| Answer» B. 40.85∠-72.53⁰ | |
| 13. |
Determine the voltage across (2+j5) Ω impedance considering 20∠30⁰ voltage source. |
| A. | 45.69∠-110.72⁰ |
| B. | 45.69∠110.72⁰ |
| C. | 46.69∠-110.72⁰ |
| D. | 46.69∠110.72⁰ |
| Answer» E. | |
| 14. |
Find the current through (2+j5) Ω impedance considering 20∠30⁰ voltage source. |
| A. | 8.68∠-42.53⁰ |
| B. | 8.68∠42.53⁰ |
| C. | 7.68∠42.53⁰ |
| D. | 7.68∠-42.53⁰ |
| Answer» C. 7.68∠42.53⁰ | |
| 15. |
Find the voltage across (2+j5) Ω impedance considering 50∠0⁰ voltage source. |
| A. | 30.16∠-9.28⁰ |
| B. | 30.16∠9.28⁰ |
| C. | 29.16∠-9.28⁰ |
| D. | 29.16∠9.28⁰ |
| Answer» D. 29.16∠9.28⁰ | |
| 16. |
Determine the current through (2+j5) Ω impedance considering 50∠0⁰ voltage source. |
| A. | 6.42∠77.47⁰ |
| B. | 6.42∠-77.47⁰ |
| C. | 5.42∠77.47⁰ |
| D. | 5.42∠-77.47⁰ |
| Answer» E. | |