A capacitor of capacitance `0.1 muF` is charged to a certain potential through resistance of `10 M Omega` and then discharged. Calculate the time in which the potential will fall to half its original value.

A capacitor of capacity 0.1 muF connected in series to a resistor of 10 M Omega is charged to a certain potential and then made to discharge through resistor. The time in which the potential will take to fall to half its original value is (Given, log_(10) 2 = 0.3010 )

A capacitor of capacitance 0.5 mu F is discharged through a resistance. Find the value of resistance if half the charge on capacitor escapes in one minute.

A capacitor of capacitance 200 muF is connected to a battery through a resistance of 5 kOmega at time t = 0. Charge stored in the capacitor in first second in larger than the charge stored in the next

A charged capacitor of capacitance 40 muF is discharged through a 50Omega resistance. Determine the time constant of the circuit.

A capacitor of capacitance 5 muF is charged to a potential difference of 10 volts and another capacitor of capacitance 9 muF is charged to a potential difference of 8 volts. Now these two capacitors are connected in such a manner that the positive plate of one is connected to the positive plate of other. Calculate the common potential difference across the two capacitors.

A capacitor of capacitance 5muF is charged to a potential difference 200 V and then allowed to dischage through a resistance 1kOmega . The cahrge on the capacitor at the instant the current through the resistance is 100 Ma, is (in muC ):

A capacitor of 2 muF is charged to its maximum emf of 2V and is discharged through a resistance of 10^(4)omega . Current in the circuit after 0.02 s will be-