MCQOPTIONS
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MCQOPTIONS
This section includes 12 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. |
The current I, as shown in the figure below, is ________ |
| A. | 3 A |
| B. | 2 A |
| C. | 1 A |
| D. | 0 |
| Answer» D. 0 | |
| 2. |
The value of RN from the circuit given below is ________ |
| A. | 3 Ω |
| B. | 1.2 Ω |
| C. | 5 Ω |
| D. | 12.12 Ω |
| Answer» E. | |
| 3. |
In the figure given below, the power loss in 1 Ω resistor using Norton’s Theorem is ________ |
| A. | 9.76 W |
| B. | 9.26 W |
| C. | 10.76 W |
| D. | 11.70 W |
| Answer» C. 10.76 W | |
| 4. |
For the circuit given in figure below, the Norton equivalent as viewed from terminals y and y’ is _________ |
| A. | 32 Ω and 0.25 A |
| B. | 32 Ω and 0.125 A |
| C. | 6 Ω and 0.833 A |
| D. | 6 Ω and 1.167 A |
| Answer» E. | |
| 5. |
For the circuit given below, the Norton’s resistance across the terminals A and B is _____________ |
| A. | 5 Ω |
| B. | 7 kΩ |
| C. | 1.5 kΩ |
| D. | 1.1 kΩ |
| Answer» C. 1.5 kΩ | |
| 6. |
In the circuit given below, it is given that VAB = 4 V for RL = 10 kΩ and VAB = 1 V for RL = 2kΩ. The value of Norton resistance for the network N is ____________ |
| A. | 16 kΩ |
| B. | 30 kΩ |
| C. | 3 kΩ |
| D. | 50 kΩ |
| Answer» C. 3 kΩ | |
| 7. |
The Norton equivalent impedance Z between the nodes P and Q in the following circuit is __________ |
| A. | 1 |
| B. | 1 + s + \(\frac{1}{s}\) |
| C. | 2 + s + \(\frac{1}{s}\) |
| D. | 3 + s + \(\frac{1}{s}\) |
| Answer» B. 1 + s + \(\frac{1}{s}\) | |
| 8. |
In the figure given below, the Norton Resistance, as seen at the terminals P-Q, is given by __________ |
| A. | 5 Ω |
| B. | 7.5 Ω |
| C. | 5 Ω |
| D. | 7.5 Ω |
| Answer» B. 7.5 Ω | |
| 9. |
In the figure given below, the value of Resistance R by Norton’s Theorem is ___________ |
| A. | 40 |
| B. | 20 |
| C. | 50 |
| D. | 80 |
| Answer» C. 50 | |
| 10. |
For the circuit shown in the figure below, the Norton Resistance looking into X-Y is __________ |
| A. | 2 Ω |
| B. | \(\frac{2}{3}\) |
| C. | \(\frac{5}{3}\) |
| D. | 2 Ω |
| Answer» E. | |
| 11. |
For the circuit shown in figure below, the value of Norton’s resistance is _________ |
| A. | 100 Ω |
| B. | 136.4 Ω |
| C. | 200 Ω |
| D. | 272.8 Ω |
| Answer» B. 136.4 Ω | |
| 12. |
In the following circuit, the value of Norton’s resistance between terminals a and b are ___________ |
| A. | RN = 1800 Ω |
| B. | RN = 270 Ω |
| C. | RN = 90 Ω |
| D. | RN = 90 Ω |
| Answer» E. | |