Q.1
Anderson bridge is used for _________
  • a) the measurement of self-inductance
  • b) the measurement of resistance
  • c) the measurement of capacitance
  • d) the measurement of impedance
Q.2
Anderson bridge is a modified form of ________
  • a) Wheatstone’s bridge
  • b) Maxwell bridge
  • c) Kelvin double bridge
  • d) Schering bridge
Q.3
Anderson’s bridge is basically used for ________
  • a) measurement of capacitance
  • b) measurement of resistance
  • c) measurement of inductance
  • d) measurement of voltage
Q.4
Balance equation for computing the inductance is ________
  • a) Lx = R3 R5
  • b) Lx = CR5
  • c) Lx = CR3
  • d) Lx = CR3 R5
Q.5
Which of the following is a balance equation for computing the resistance?
  • a) R1 = R2 R3⁄R4
  • b) R1 = R2 ⁄ R4
  • c) R1 = R3 ⁄ R4
  • d) R1 = R2 R3
Q.6
When the capacitor used is imperfect, the inductance value changes.
  • a) True
  • b) False
Q.7
Anderson’s bridge is used for the measurement of capacitance.
  • a) True
  • b) False
Q.8
Anderson’s bridge is used for the measurement of ________
  • a) capacitance
  • b) resistance
  • c) inductance
  • d) impedance
Q.9
Anderson’s bridge makes use of a variable capacitance.
  • a) True
  • b) False
Q.10
Anderson’s bridge is very basic.
  • a) True
  • b) False
Q.11
Bridge balance equations are ________
  • a) easy to derive
  • b) independent of the components
  • c) complex in nature
  • d) real in nature
Q.12
Components in an Anderson’s bridge are ________
  • a) less
  • b) zero
  • c) intermediate
  • d) more
Q.13
Anderson’s bridge ________
  • a) can’t be shielded
  • b) can be fully shielded
  • c) can be partially shielded
  • d) can be shielded based on the components used
Q.14
What is the significance of Anderson bridge with respect to Q factor?
  • a) difficult to balance the bridge
  • b) easy to balance the bridge
  • c) intermediate balance can be achieved
  • d) no balance can be done
Q.15
An Anderson’s bridge can be used to ________
  • a) measure mutual inductance
  • b) measure impedance
  • c) measure self inductance
  • d) measure stray capacitance
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