A capacitor of `10muF` is connected with a resistance of `2.2 M Omega`. What is the time constant of the circuit.

A capacitor of 10 mu F is connected to a resistance of 2.2 xx 10^(5) ohm in series. What is time constant of the circuit? Can oscillations of charge/current be produced in this circuit ?

A capacitor of 10 microfarad is connected in series with a resistance of 2.2 xx 10^5 ohm. Determine the time constant for the circuit. Can we think of oscillations in this circuit, such that the frequency is equal to the inverse of the time constant? Justify your answer with proper explanation.

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

A parallel-plate capacitor with plate are 20cm^(2) and plate separation 1.0mm is connected to a battery .The resistance of the circuit is 10k(Omega) .Find the time constant of the circuit.

A parallel-plate capacitor with plate are 20cm^(2) and plate separation 1.0mm is connected to a battery .The resistance of the circuit is 10k(Omega) .Find the time constant of the circuit.

A parallel-plate capacitor with plate are 20cm^(2) and plate separation 1.0mm is connected to a battery .The resistance of the circuit is 10k(Omega) .Find the time constant of the circuit.

A capacitor of 2.0 muF is connected to a battery of 2V through a resistance of 10 k Omega . Calculate (i) the initial current in the circuit and (ii) the current after 0.02s.

A capacitor of capacitance 1muF is connected in parallel with a resistance 10Omega and the combination is connected across the terminals of a battery of EMF 50 V and internal resistance 1Omega . The potential difference across the capacitor at steady state is (in Volt)

A capacitor of capacitance 1muF is connected in parallel with a resistance 10Omega and the combination is connected across the terminals of a battery of EMF 50 V and internal resistance 1Omega . The potential difference across the capacitor at steady state is (in Volt)

A capacitor of capacitance 10muF is connected to a resistance 2Omega and a battery of emf 5V of negligible interanl resistance. After 20mus of comleting the circuit find. a. power delivered by the battery b. power dissipated as heat c. rate of energy stored in the capacitor