Advanced Problems on Measurement of Inductance using AC Bridges MCQ’s

Electrical Measurements Electronics & Communication Engineering

This set of Electrical Measurements Multiple Choice Questions & Answers (MCQs) focuses on “Advanced Problems on Measurement of Inductance using AC Bridges”.

1. In Maxwell’s capacitance bridge for calculating unknown inductance, the various values at balance are, R1 = 300 Ω, R2 = 700 Ω, R3 = 1500 Ω, C4 = 0.8 μF. Calculate R1, L1 and Q factor, if the frequency is 1100 Hz.
a) 240 Ω, 0.12 H, 3.14
b) 140 Ω, 0.168 H, 8.29
c) 140 Ω, 0.12 H, 5.92
d) 240 Ω, 0.36 H, 8.29

2. In Wein’s bridge, the output frequency is determined by __________
a) RLC combination
b) LC combination
c) RC combination
d) RL combination

3. In the Owen’s bridge shown in below figure, Z1 = 200∠60°, Z2 = 400∠-90°, Z3 = 300∠0°, Z4 = 400∠30°. Then the _______


a) Bridge is balanced with given impedance values
b) Bridge can be balanced, if Z4 = 600∠60°
c) Bridge can be balanced, if Z3 = 400∠0°
d) Bridge cannot be balanced with the given configuration

4. What is the disadvantage of Maxwell Bridge?
a) Inductance cannot be measured over a wide range
b) Measurement is not independent of frequency
c) Number of components is large
d) Inductance can be measured over a wide range

5. Hay’s Bridge is used for measuring __________
a) Resistance in the milliohm range
b) Low values of capacitance
c) Comparison of resistances which are nearly equal
d) The Inductance of a coil with a large time constant

6. The Bridge shown in the below figure is ______________


a) Maxwell’s Bridge
b) Wien’s Bridge
c) Anderson’s Bridge
d) Hay’s Bridge

7. Maxwell’s Inductance Capacitance Bridge is used for measuring ___________
a) Inductance
b) Capacitance
c) Frequency
d) Mutual Inductance

8. In Maxwell’s Bridge, as shown in the figure below, the values of the resistance R1 and inductance L1 of a coil are to be calculated after the bridge is balanced. The values are?


a) 375 Ω and 75 mH
b) 75 Ω and 150 mH
c) 37.5 Ω and 75 mH
d) 75 Ω and 75 mH

9. The four arms of an AC bridge network are as follows:

Arm AB: unknown impedance
Arm BC: standard capacitor C2 of 1000pf
Arm CD: a non-inductive resistance of R of 100 Ω in parallel to a capacitor of 0.01 μF
Arm DA: a non-inductive resistance of 1000 Ω

The supply frequency is 50 Hz and connected across terminals B and D. If the bridge is balanced with the above value, determine the value of unknown Capacitance.
a) 100 pf
b) 1000 pf
c) 500 pf
d) 10 pf

10. The four arms of an AC bridge network are as follows:

Arm AB: unknown impedance
Arm BC: standard capacitor C2 of 1000pf
Arm CD: a non-inductive resistance of R of 100 Ω in parallel to a capacitor of 0.01 μF
Arm DA: a non-inductive resistance of 1000 Ω

The supply frequency is 50 Hz and connected across terminals B and D. If the bridge is balanced with the above value, determine the value of unknown Impedance.
a) 10 kΩ
b) 100 kΩ
c) 250 kΩ
d) 20 kΩ

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