# Inverse Network MCQ’s

This set of Network Theory Multiple Choice Questions & Answers (MCQs) focuses on “Inverse Network”.

1. An inverse network may be obtained by?
a) Converting each series branch into another series branch
b) Converting each series branch into another parallel branch
c) Converting each parallel branch into another series branch
d) None of the mentioned

2. An inverse network may be obtained by converting each resistance element R into a corresponding resistive element of value?
a) R02/R
b) R/R02
c) R0/R
d) R/R0

3. The impedances Z1 and Z2are said to be inverse if?
a) Z1Z2 = R0
b) Z1 + Z2 = R0
c) 1/Z1 + 1/Z2 = R0
d) Z1Z2 = R02

4. An inverse network may be obtained by converting each inductance L into a capacitance of value?
a) L/R0
b) L/R02
c) R0/L
d) R02/L

5. Consider the network shown below. Find the value of capacitance C1 after converting the inductance L1 into a capacitance.

a) R02/L1
b) R0/L1
c) L1/R02
d) L1/R0

6. Consider the network shown below, find the value of resistance R1 after converting the resistance R1.

a) R1/R0
b) R0/R1
c) R1/R02
d) R02/R1

7. An inverse network may be obtained by converting each capacitance C into an inductance of value?
a) CR02
b) CR0
c) R02/C
d) C/R02

8. Consider the network shown below, find the value of inductance L1 after converting the capacitance into an inductance.

a) C1/R02
b) R02/C1
c) C1R0
d) C1R02

9. The value of the capacitance C2 after converting the inductor into the C2 in the network shown below.

a) L2/R02
b) L2/R0
c) R02/L2
d) R0/L2

10. The value of the inductor L2 after converting the capacitor into the L2 in the network shown below.

a) R02/C2
b) C2R02
c) C2R0
d) R02/C2