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 . 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 Ratio of power developed across R, 2R and 6R will be

In the circuit shown in figure find a. The power supplied by 10 V battery b. The power consumed by 4 V battery and c. The power dissipated in 3Omega resistance.

The total current supplied to the circuit by the battery is

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

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?

In the circuit shown below, E is a battery of emf 6 V and internal resistance 1Omega . Find the reading of the ammeter A. if it has negligible resistance :

In the circuit shown, if the 10Omega resistance is replaced by 20 Omega Then the amount of current draw from the battery will be

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

In the circuit shown in fig the voltage across the 6Omega resistor is 12V. What is the emf of the battery and the current thorugh the 6Oemga resistor?