A battery of emf `10` V is connected with a load resistance of `50` Omega the total power delivered by the battery is `2` W. If load resistance is replaced by R then power delivered is `4` W, the value of R is

A battery of 10V is connected to a resistance of 20Omega through a variable resistance R. If the variable resistance R is increased at the rate of 5Omega" min"^(-1) , then the amount of charge that passes through the battery in 4 min is

A cell of emf epsilon and internal resistance r is connected across a load resistance R (i) Find the maximum power delivered at the load ? .

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

Determine the load resistance for which the power delivered to the circuit is a maximum. Graph the dependence of the power on the load resistance.

A battery has an open circuit potential difference of 6V between its terminals. When a load resistance of 60 Omega is connected across the battery,the total power supplied by the bttery is 0.4 W . What should be the load resistance R , so that maximum power will be dissipated in R . Calculated this power. What is the total power supplied by the battery when such a load is connected?

A battery of 3.0 V is connected to a resistor dissipating 0.5 W of power . If the terminal voltage of the battery is 2.5 V , the power dissipated within the internal resistance is :

A power supply with an e.m.f epsi and internal resustance r is connected to a variable resistance R. Find the dependence of the total power generated by the supply and of the power delivered to the external circuit on the load resistance.

In the circuit shown, total power supplied by an ideal battery is 80 W. if R = 10 Omega . If the resistance R is removed from the circuit. Then

The series combination of two batteries, both of the same emf 20 V, but different internal resistance of 10 Omega and 2 Omega , is connected to the parallel combination of two resistors 10 ohm and ROmega . The voltage difference across the battery of internal resistance 10 Omega is zero, the value of R (in Omega ) is _________.

A battery of emf 2 V and initial resistance 1 Omega is connected across terminals A and B of the circuit shown in figure .