The inductance of a choke-cail is 0.2 henry and its resistance is 0.50 `Omega`. A current of 2.0 ampere (rms value) and frequency 50 Hz be passed through it, what will be the potential difference across its ends

An alternating current of rms value 10 A is passed through a 12 Omega resistor. The maximum potential difference across the resistor is

The coefficient of induction of a choke coil is 0.1 H and resistance is 12 Omega . If it is connected to an alternating current source of frequency 60 Hz , then power factor will be

Three resistances 2 Omega, 3 Omega and 4 Omega are connected in parallel. The ratio of currents passing through them when a potential difference is applied across its ends will be

A current 0.2 A flows in a wire of resistance 15 Omega . Find the potential difference across the ends of the wire.

An electric bulb of resistance 500Omega , draws a current of 0.4 A. Calculate the power of the bulb and the potential difference at its end.

At t=0, an inductor of zero resistance is joined to a cell of emf epsilon through a resistance. The current increases with a time constant tau . After what time will the potential difference across the coil be equal to that across the resistance ?

(a) What is the reactance of a 2.00 H inductor at a frequency of 50.0 Hz ? (b) What is the inductance of an inductor whose reactance is 2.00 Omega at 50.0 Hz ? (c) What is the reactance of a 2.00 muF capacitor at a frequency of 50.0 Hz ? (d) What is the capacitance of a capacitor whose reactance is 2.00 Omega at 50.0 Hz ?

A voltmeter having a resistance of 1800 Omega employed to measure the potential difference across a 200 Omega resistor which is connected to the terminals of a dc power supply having an emf of 50 V and an internal resistance of 20 Omega . What is the percentage decrease in the potential difference across the 200 Omega resistor as a result of connecting the voltmeter across it?

When a current of (2.5 +- 0.5) ampere flows through a wire, it develops a potential difference of (20 +- 1) volt, the resistance of the wire is