Select the correct value for each of the quantities listed below.A capacitor of capacitance \( C = 2.0 \, \mu F \) is initially charged with charge \( Q_0 = 6.0 \, \mu C \). The capacitor is then discharged by connecting it to a resistor of resistance \( R = 5.0 \, M \Omega \).- The initial voltage of this capacitor is [Select] V.At time \( t = 20 \, s \):- The charge on the capacitor is \( Q = \) [Select] \( \mu C \),- The voltage across the capacitor is \( \Delta V = \) [Select] V,- The current in the circuit is \( I = \) [Select] \( \mu A \),- And the energy stored in the capacitor is \( U = \) [Select] \( \mu J \).

Solution: Given that C = 2 μF = 2x10-6 FQ0 = 6 μC = 6x10-6 CR = 5 Mohm = 5x106 ohm

Select the correct value for each of the quantities listed below. %3D A capacitor of capacitance C= 2.0 µF is initially charged with charge Qo = 6.0 µC. The %3D capacitor is then discharged by connecting it to a resistor of resistance R = 5.0 MN. • The initial voltage of this capacitor is [ Select ] Y V. At time t = 20 s: • the charge on the capacitor is Q = [Select] • the voltage across the capacitor is AV= [ Select ] Y V, • the current in the circuit is I = [ Select ]

Select the correct value for each of the quantities listed below. %3D A capacitor of capacitance C= 2.0 µF is initially charged with charge Qo = 6.0 µC. The %3D capacitor is then discharged by connecting it to a resistor of resistance R = 5.0 MN. • The initial voltage of this capacitor is [ Select ] Y V. At time t = 20 s: • the charge on the capacitor is Q = [Select] • the voltage across the capacitor is AV= [ Select ] Y V, • the current in the circuit is I = [ Select ]

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

Select the correct value for each of the quantities listed below.

A capacitor of capacitance \( C = 2.0 \, \mu F \) is initially charged with charge \( Q_0 = 6.0 \, \mu C \). The capacitor is then discharged by connecting it to a resistor of resistance \( R = 5.0 \, M \Omega \).

- The initial voltage of this capacitor is [Select] V.

At time \( t = 20 \, s \):

- The charge on the capacitor is \( Q = \) [Select] \( \mu C \),
- The voltage across the capacitor is \( \Delta V = \) [Select] V,
- The current in the circuit is \( I = \) [Select] \( \mu A \),
- And the energy stored in the capacitor is \( U = \) [Select] \( \mu J \).

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