MCQOPTIONS
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MCQOPTIONS
This section includes 24 Mcqs, each offering curated multiple-choice questions to sharpen your Network Theory knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
How many nodes are taken as reference nodes in a nodal analysis? |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | 4 |
| Answer» B. 2 | |
| 2. |
Nodal analysis can be applied for________ |
| A. | Planar networks |
| B. | Non-planar networks |
| C. | Both planar and non-planar networks |
| D. | Neither planar nor non-planar networks |
| Answer» D. Neither planar nor non-planar networks | |
| 3. |
Find the value of V1 and V2. |
| A. | 87.23V, 29.23V |
| B. | 23.32V, 46.45V |
| C. | 64.28V, 16.42V |
| D. | 56.32V, 78, 87V |
| Answer» D. 56.32V, 78, 87V | |
| 4. |
Calculate the node voltages. |
| A. | 30.77V, 7.52V, 18.82V |
| B. | 32.34V, 7.87V, 8.78V |
| C. | 34.34V, 8.99V, 8.67V |
| D. | 45.44V, 6.67V, 7.77V |
| Answer» B. 32.34V, 7.87V, 8.78V | |
| 5. |
Find the node voltage V. |
| A. | 1V |
| B. | 2V |
| C. | 3V |
| D. | 4V |
| Answer» E. | |
| 6. |
Calculate the node voltages V1 and V2. |
| A. | 12V, 13V |
| B. | 26.67V, 11.33V |
| C. | 11.33V, 26.67V |
| D. | 13V, 12V |
| Answer» D. 13V, 12V | |
| 7. |
Find the value of the node voltage V. |
| A. | -60V |
| B. | 60V |
| C. | 40V |
| D. | -40V |
| Answer» B. 60V | |
| 8. |
Find the voltage at node 2 of the circuit shown below. |
| A. | 13 |
| B. | 14 |
| C. | 15 |
| D. | 16 |
| Answer» C. 15 | |
| 9. |
Find the voltage at node 1 of the circuit shown below. |
| A. | 32.7 |
| B. | 33.7 |
| C. | 34.7 |
| D. | 35.7 |
| Answer» C. 34.7 | |
| 10. |
Find the voltage (V) at node 2 in the circuit shown below. |
| A. | 2.7 |
| B. | 3.7 |
| C. | 4.7 |
| D. | 5.7 |
| Answer» D. 5.7 | |
| 11. |
Find the voltage (V) at node 1 in the circuit shown. |
| A. | 5.32 |
| B. | 6.32 |
| C. | 7.32 |
| D. | 8.32 |
| Answer» C. 7.32 | |
| 12. |
Find the value of the resistor R2 (Ω) in the circuit shown below. |
| A. | 5 |
| B. | 6 |
| C. | 7 |
| D. | 8 |
| Answer» C. 7 | |
| 13. |
Find the resistor value R1(Ω) in the figure shown below. |
| A. | 10 |
| B. | 11 |
| C. | 12 |
| D. | 13 |
| Answer» D. 13 | |
| 14. |
Find the voltage at node P in the following figure. |
| A. | 8V |
| B. | 9V |
| C. | 10V |
| D. | 11V |
| Answer» C. 10V | |
| 15. |
FIND_THE_VOLTAGE_AT_NODE_2_OF_THE_CIRCUIT_SHOWN_IN_THE_QUESTION_9.?$ |
| A. | 13 |
| B. | 14 |
| C. | 15 |
| D. | 16 |
| Answer» C. 15 | |
| 16. |
HOW_MANY_NODES_ARE_TAKEN_AS_REFERENCE_NODES_IN_A_NODAL_ANALYSIS??$ |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | 4 |
| Answer» B. 2 | |
| 17. |
Nodal analysis can be applied for_______? |
| A. | Planar networks |
| B. | Non-planar networks |
| C. | Both planar and non-planar networks |
| D. | Neither planar nor non-planar networks |
| Answer» D. Neither planar nor non-planar networks | |
| 18. |
Find the voltage (V) at node 2 in the circuit shown in the question 7? |
| A. | 2.7 |
| B. | 3.7 |
| C. | 4.7 |
| D. | 5.7 |
| Answer» D. 5.7 | |
| 19. |
If there are 10 nodes in a circuit, how many equations do we get? |
| A. | 10 |
| B. | 9 |
| C. | 8 |
| D. | 7 |
| Answer» C. 8 | |
| 20. |
Nodal analysis is generally used to determine_______ |
| A. | Voltage |
| B. | Current |
| C. | Resistance |
| D. | Power |
| Answer» B. Current | |
| 21. |
Find the value of the resistor R2 (Ω) in the circuit shown in the question 5.$ |
| A. | 5 |
| B. | 6 |
| C. | 7 |
| D. | 8 |
| Answer» C. 7 | |
| 22. |
In nodal analysis how many nodes are taken as reference nodes? |
| A. | 1 |
| B. | 2 |
| C. | 3 |
| D. | 4 |
| Answer» B. 2 | |
| 23. |
Nodal analysis can be applied for non planar networks also. |
| A. | true |
| B. | false |
| Answer» B. false | |
| 24. |
If there are 8 nodes in network, we can get ____ number of equations in the nodal analysis. |
| A. | 9 |
| B. | 8 |
| C. | 7 |
| D. | 6 |
| Answer» D. 6 | |