A sinusoidal voltage v=200 sin 314 t is applied to a resistor of `10Omega` resistance. Calculate the power dispated as heat in watt.

A sinusoidal voltage v=200 sin 314 t is applied to a resistor of 10Omega resistance. Calculate the rms value of the voltage

A sinusoidal voltage v=200 sin 314 t is applied to a resistor of 10Omega resistance. Calculate the rms value of the current

A sinusoidal voltage v=200 sin 314 t is applied to a resistor of 10Omega resistance. Calculate the frequency of the supply

A battery of emf 1.4V and interna! resistance 2Omega is connected to a resistor of 100Omega resistance through an ammeter. The resistance of ammeter is 4/3Omega a voltmeter has also been connected to find the potential difference across the resistor. The voltmeter reads 1.10V. What is the error in the reading ?

An alternating voltage given by V=140sin314t is connected across a pure resistor of 50Omega . Find the frequency of the source

An LR circuit contains a resistance of 40Omega and an inductance of 25 mH .What would be the power dissipated in the circuit for an applied alternating voltage of frequency 1000 Hz and peak value of 10 V?

2.2 kW power is supplied through a line of 10Omega resistance under 22000 V voltage differnce . What is the rate of heat dissipation in the line ?

The current and voltage in an ac circuit are I=sin(100t+pi/3) A and V=20sin100tV. Calculate the power of the circuit in W.

Two batteries with emf 12 V and 13V are connected in parallel across a load resistor of 10Omega . The internal resistances of the two batteries are 1Omega and 2Omega respectively . The voltage across the load lies between

Two lamps of 200 W and 100 w are connected in series in 200 V mains . Assuming the resistance of the two lamps to remain unchanged , calculate the power consumed by each of them .