Q3. A circuit consists of a 10 Q resistor, a 30 mH inductor and a 1 pF capacitor, and is supplied from a 10 V variable-frequency source. Find the frequency for which the voltage developed across the capacitor is a maximum and calculate the magnitude of this voltage. Q3. A circuit consists of a 10 2 resistor, a 30 mH inductor and a 1 uFcapacitor, and is supplied from a 10 V variable-frequency source. Find thefrequency for which the voltage developed across the capacitor is amaximum and calculate the magnitude of this voltage.

To solve above problem, one should have basic idea about working of AC circuits. Above given circuit…

A circuit consists of a 10 Q resistor, a 30 mH inductor and a 1 pF capacitor, and is supplied from a 10 V variable-frequency source. Find the frequency for which the voltage developed across the capacitor is a maximum and calculate the magnitude of this voltage

A circuit consists of a 10 Q resistor, a 30 mH inductor and a 1 pF capacitor, and is supplied from a 10 V variable-frequency source. Find the frequency for which the voltage developed across the capacitor is a maximum and calculate the magnitude of this voltage

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter24: Resistive-inductive-capacitive Parallel Circuits

Section: Chapter Questions

Problem 1RQ: An AC circuit contains a 24 resistor, a 15.9-mH inductor, and a 13.3F capacitor connected in...

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Question

Q3. A circuit consists of a 10 Q resistor, a 30 mH inductor and a 1 pF capacitor, and is supplied from a 10 V variable-frequency source. Find the frequency for which the voltage developed across the capacitor is a maximum and calculate the magnitude of this voltage.

Q3. A circuit consists of a 10 2 resistor, a 30 mH inductor and a 1 uF
capacitor, and is supplied from a 10 V variable-frequency source. Find the
frequency for which the voltage developed across the capacitor is a
maximum and calculate the magnitude of this voltage.

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