# Advanced Problems on Superposition Theorem MCQ’s

This set of Network Theory Multiple Choice Questions & Answers (MCQs) focuses on “Advanced Problems on Superposition Theorem”.

1. The current I in the circuit given below is ________

a) 14 A

b) 54 A

c) 34 A

d) 12 A

2. The value of the voltage V_{2} at the node in the circuit given below is __________

a) 2.745 V

b) 1.393 V

c) -1.393 V

d) -2.745 V

3. The Superposition Theorem is not applicable for _________

a) Power calculation

b) Voltage calculation

c) Current Calculation

d) Both Voltage and Current calculation

4. The value of the voltage V_{1} at the node in the circuit given below is __________

a) 11.148 V

b) 10.989 V

c) 20.151 V

d) 25.148 V

5. In superposition theorem when we consider one voltage source, all the other voltage sources are ___________

a) Shorted

b) Removed

c) Undisturbed

d) Opened

6. In the circuit given below, the value of voltage V_{X} using Superposition Theorem is _________

a) 5(I_{O} – 3)

b) 2.5(I_{O} – 3)

c) 4.5(3 – I_{O})

d) 2.5(3 – I_{O})

7. The value of the current I in the circuit given below, is ___________

a) 0.7 A

b) 0.5 A

c) 1 A

d) 3.5 A

8. In the figure given below, the value of Resistance R by Superposition Theorem is ___________

a) 10

b) 20

c) 30

d) 40

9. In the circuit given below, the value of voltage V_{O} using Superposition Theorem is _________

a) −30 – 10I_{O}

b) 30 + 10I_{O}

c) −30 + 10I_{O}

d) +30 – 10I_{O}

10. The value of voltage V_{O} in the circuit given below is _____________

a) 24 V

b) 48 V

c) 12 V

d) 4 V

11. In the circuit given below, the value of V_{X} due to the 10 V source is ____________

a) 1 V

b) 2 V

c) 3 V

d) 4 V

12. The value of the voltage V_{O} in the circuit given below is __________

a) 20 V

b) 30 V

c) 40 V

d) 50 V

13. In the circuit given below, the value of V in terms of V_{S} and I_{S} using Superposition Theorem is ___________

a) V = 27IS–47VS

b) V = 27VS+47IS

c) V = 27VS–47IS

d) V = 27IS–47VS

14. In the following circuit, when R = 0 Ω, the current IR equals to 10 A. The maximum power will be?

a) 50 W

b) 100 W

c) 200 W

d) 400 W

15. The circuit shown in figure has a load equivalent to _________

a) 43 Ω

b) 83 Ω

c) 4 Ω

d) 2 Ω

## Average Rating