For the circuit shown rate of heat produced in the 5 ohm resistance is 10 cal/sec. then the rate of heat produced in 4 ohm resistance will be:

A current of 5 ampere flows in a 10 -ohm resistor. Calculate the rate of heat energy produced in the resistor.

In the circuit shown in the following figure, the heat product in the 5 Omega resistance due to the current flowing it is 10 cal/s. The heat generated in 4Omega resistance and 6 Omega resistor is

In the circuit shown in fig the heat produced in the 5 ohm resistor due to the current flowing through it is 10 calories per second. The heat generated in the 4 ohms resistor is

A 4muF capacitor is charged to 400 V. If its plates are joined through a resistance of 4kOmega , then heat produced in the resistance will be

In a circuit when current of 4A is flown in a resistance for 1sec heat produced is 192J. If the current is doubled then heat produced in 5s in same resistance is....

In the circuit shown in the figure, the value of maximum rate of heat production in resistance R is

A 4muF capacitor is charged to 400 V. If its plates are joined through a resistance of 2kOmega , then heat produced in the resistance is

How should the two resistances of 2 ohms each be connected so as to produce an equivalent resistance of 1 ohm?