(B) The charge $Q$ on a capacitor is given by the formula $Q = C \times V$,where $C$ is the capacitance and $V$ is the potential difference.Given $C =

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(B) The charge $Q$ on a capacitor is given by the formula $Q = C \times V$,where $C$ is the capacitance and $V$ is the potential difference.Given $C = 1000 \ \mu F = 1000 \times 10^{-6} \ F$ and $V = 20 \ V$.Total charge $Q = 1000 \times 10^{-6} \ F \times 20 \ V = 20,000 \ \mu C$.The rate of charging is given as $I = 200 \ \mu C/s$.Since the rate is steady,the time $t$ required is given by $t = Q / I$.$t = 20,000 \ \mu C / 200 \ \mu C/s = 100 \ s$.

Class 12 Physics Electric Potential and Capacitance Charging and Discharging of Capacitance and RC circuit (DC)

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The time in seconds required to produce a potential difference of $20 \ V$ across a capacitor of $1000 \ \mu F$ when it is charged at a steady rate of $200 \ \mu C/s$ is

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AP EAMCET 2002 All AP EAMCET

A
$50$
B
$100$
C
$150$
D
$200$

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Electric Potential and Capacitance

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Charging and Discharging of Capacitance and RC circuit (DC)

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In the circuit shown in the figure,$C_1 = 2C_2$. Switch $S$ is closed at time $t = 0$. Let $i_1$ and $i_2$ be the currents flowing through the branches containing $C_1$ and $C_2$ respectively at any time $t$. Then the ratio $i_1 / i_2$:

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$A$ charged capacitor is allowed to discharge through a resistor by closing the key at the instant $t = 0$. At the instant $t = (\ln 4) \, \mu s$,the reading of the ammeter falls to half the initial value. The resistance of the ammeter is equal to

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The capacitor shown in the figure is in a steady state. The energy stored in the capacitor is

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Which of the following is a possible application of an $RC$ circuit?

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The charge on the capacitor of capacitance $C$ shown in the figure below will be

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The time in seconds required to produce a potential difference of $20 \ V$ across a capacitor of $1000 \ \mu F$ when it is charged at a steady rate of $200 \ \mu C/s$ is

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In the circuit shown in the figure,$C_1 = 2C_2$. Switch $S$ is closed at time $t = 0$. Let $i_1$ and $i_2$ be the currents flowing through the branches containing $C_1$ and $C_2$ respectively at any time $t$. Then the ratio $i_1 / i_2$:

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