# 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 V2 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 V1 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 VX using Superposition Theorem is _________

a) 5(IO – 3)
b) 2.5(IO – 3)
c) 4.5(3 – IO)
d) 2.5(3 – IO)

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 VO using Superposition Theorem is _________

a) −30 – 10IO
b) 30 + 10IO
c) −30 + 10IO
d) +30 – 10IO

10. The value of voltage VO 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 VX 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 VO 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 VS and IS 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