In the circuit shown in figure, four capacitors are connected to a battery. 4µF HH 10μF HH SuF Ak TOV The equivalent capacitance of the circuit is (A) 25μF (B) 6µF The charge on the 5μF capacitor is (A) 60µC (B) 24µC 6uF С (C) 8.4µF (C) 12µC The potential difference across the 6μF capacitor is (A) 6V (B) 4V (C) SV The maximum energy is stored in the capacitor of A) 10μF (B) 6µF (C) SµF (D) None (D) 20 μC (D) None (D) 4µF

In the circuit shown in figure, four capacitors are connected to a battery. 4µF HH 10μF HH SuF Ak TOV The equivalent capacitance of the circuit is (A) 25μF (B) 6µF The charge on the 5μF capacitor is (A) 60µC (B) 24µC 6uF С (C) 8.4µF (C) 12µC The potential difference across the 6μF capacitor is (A) 6V (B) 4V (C) SV The maximum energy is stored in the capacitor of A) 10μF (B) 6µF (C) SµF (D) None (D) 20 μC (D) None (D) 4µF

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter19: Capacitors

Section: Chapter Questions

Problem 2PA: You are an electrician working in an industrial plant. You discover that the problem with a certain...

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