MCQOPTIONS
Saved Bookmarks
MCQOPTIONS
This section includes 15 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. |
Taking the inverse transform of the voltage across the resistor in the circuit shown below is? |
| A. | Ve-t/τ |
| B. | Vet/τ |
| C. | Vetτ |
| D. | Ve-tτ |
| Answer» B. Vet/τ | |
| 2. |
The voltage across the resistor in the parallel circuit shown is? |
| A. | V/(s-1/R) |
| B. | V/(s-1/RC) |
| C. | V/(s+1/RC) |
| D. | V/(s+1/C) |
| Answer» D. V/(s+1/C) | |
| 3. |
The voltage across the resistor in the circuit shown below is? |
| A. | Vet/R |
| B. | Ve-t/RC |
| C. | Ve-t/R |
| D. | Vet/RC |
| Answer» C. Ve-t/R | |
| 4. |
After taking the inverse transform of current in the circuit shown below, the value of current is? |
| A. | i=(V/C)e-t/R |
| B. | i=(V/C)e-t/RC |
| C. | i=(V/R)e-t/RC |
| D. | i=(V/R)e-t/R |
| Answer» D. i=(V/R)e-t/R | |
| 5. |
From the circuit shown below, find the value of current in the loop. |
| A. | (V/R)/(s+1/RC) |
| B. | (V/C)/(s+1/R) |
| C. | (V/C)/(s+1/RC) |
| D. | (V/R)/(s+1/R) |
| Answer» B. (V/C)/(s+1/R) | |
| 6. |
The s-domain equivalent of the capacitor reduces to a capacitor with impedance? |
| A. | sC |
| B. | C |
| C. | 1/C |
| D. | 1/sC |
| Answer» E. | |
| 7. |
The relation between current and voltage in the case of inductor is? |
| A. | v=Ldt/di |
| B. | v=Ldi/dt |
| C. | v=dt/di |
| D. | v=di/dt |
| Answer» C. v=dt/di | |
| 8. |
Taking the inverse transform of the voltage across the resistor in the circuit shown in question 9.$ |
| A. | Ve<sup>-t/τ</sup> |
| B. | Ve<sup>t/τ</sup> |
| C. | Ve<sup>tτ</sup> |
| D. | Ve<sup>-tτ</sup> |
| Answer» B. Ve<sup>t/‚âà√¨‚àö√´</sup> | |
| 9. |
The voltage across the resistor in the circuit shown in question 6 is? |
| A. | Ve<sup>t/R</sup> |
| B. | Ve<sup>-t/RC</sup> |
| C. | Ve<sup>-t/R</sup> |
| D. | Ve<sup>t/RC</sup> |
| Answer» C. Ve<sup>-t/R</sup> | |
| 10. |
After taking the inverse transform of current in the circuit shown in question 6, the value of current is? |
| A. | i=(V/C)e<sup>-t/R</sup> |
| B. | i=(V/C)e<sup>-t/RC</sup> |
| C. | i=(V/R)e<sup>-t/RC</sup> |
| D. | i=(V/R)e<sup>-t/R</sup> |
| Answer» D. i=(V/R)e<sup>-t/R</sup> | |
| 11. |
The s-domain equivalent of the capacitor reduces to an capacitor with impedance? |
| A. | sC |
| B. | C |
| C. | 1/C |
| D. | 1/sC |
| Answer» E. | |
| 12. |
The voltage and current in a capacitor are related as? |
| A. | i=Cdt/dv |
| B. | v=Cdv/dt |
| C. | i=Cdv/dt |
| D. | v=Cdt/dv |
| Answer» D. v=Cdt/dv | |
| 13. |
The s-domain equivalent of the inductor reduces to an inductor with impedance? |
| A. | L |
| B. | sL |
| C. | s<sup>2</sup>L |
| D. | s<sup>3</sup>L |
| Answer» C. s<sup>2</sup>L | |
| 14. |
The relation between current and voltage in case of inductor is? |
| A. | v=Ldt/di |
| B. | v=Ldi/dt |
| C. | v=dt/di |
| D. | v=di/dt |
| Answer» C. v=dt/di | |
| 15. |
The resistance element __________ while going from the time domain to frequency domain. |
| A. | does not change |
| B. | increases |
| C. | decreases |
| D. | increases exponentially |
| Answer» B. increases | |