An alternating current bridge is arranged as follows: The arm BC and DA consists of non-inductive resistance of 800 Ω each. A balance is obtained when resistances of the arms DE and CD of non-inductive variable resistances of 200 Ω, 1k Ω respectively. The arm EC of a capacitor of 1 µF capacitance. The alternating current source is connected to A and C and the telephone receiver to B and E. Calculate the resistance and inductance of arm AB. Also find Q factor, when supply frequency is 1500Hz.
An alternating current bridge is arranged as follows: The arm BC and DA consists of non-inductive resistance of 800 Ω each. A balance is obtained when resistances of the arms DE and CD of non-inductive variable resistances of 200 Ω, 1k Ω respectively. The arm EC of a capacitor of 1 µF capacitance. The alternating current source is connected to A and C and the telephone receiver to B and E. Calculate the resistance and inductance of arm AB. Also find Q factor, when supply frequency is 1500Hz.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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An alternating current bridge is arranged as follows: The arm BC and DA
consists of non-inductive resistance of 800 Ω each. A balance is obtained when
resistances of the arms DE and CD of non-inductive variable resistances of 200
Ω, 1k Ω respectively. The arm EC of a capacitor of 1 µF capacitance. The
alternating current source is connected to A and C and the telephone receiver
to B and E. Calculate the resistance and inductance of arm AB. Also find Q
factor, when supply frequency is 1500Hz.
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