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

In the circuit shown, total power supplied by an ideal battery is 80 W. if R = 10 Omega . Then EMF of the battery is

In the circuit shown, total power supplied by an ideal battery is 80 W. if R = 10 Omega . Then Ratio of power developed across R, 2R and 6R will be

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?

The total current supplied to the circuit by the battery is

The total current supplied to the circuit by the battery is :

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

Assertion : In the circuit shown in figure, battery is ideal. If a resistance R_(0) is cannected in parallel with R, then power across R will increase. Reason : Current drawn from the battery will increase.

In the circuit shown in figure, power developed across 1 Omega, 2 Omega and 3 Omega resistance are in the ratio of

If in the circuit, power dissipation is 150W, the R is

in the circuit shown in the figure, each battery is of 5 V and has an internal resistance of 0.2 Omega What is the reading of the ideal voltmeter V