In the figur shown, the thermal power generated in 'Y' is maximum when `Y = 4 Omega`. Then X is

In the circuit shown in figure, power generated in

In a circuit shown in figure if the internal resistances of the sources are negligible then at what value of resistance R will the thermal power generated in it will be the maximum. What is the value of maximum power?

In the circuti shown ,the thermal power dissipated in R_(1) is P. The thermal power dissipated in R_(2) is .

In the circuit shown in figure R_(1)=R_(2)=10Omega, E_(1)=20V, E_(2)=40V . For what value of R, the thermal power developed in it will be maximum (in Omega )?

In the given circuit, the valuue of R so that thermal power generated in R will be maximum is:

In the circuit shown below, the power developed in 6Omega resistor is 6 watt. The power in watts developed in the 4Omega resistor is

A circuit shown in the figure has resistances 20 Omega and 30 Omega . At what value of resistance R_x will the thermal power generated in it be practically independent of small variations of that resistance? The voltage between points A and B is supposed to be constant in this case.

In the circuit shown in figure, the emfs of batteries are E_1 , and E_2 which have internal resistances R_1 , and R_2 . At what value of the resistance R will the thermal power generated in it be the highest? What it is?

In the network shown in the figure, power dissipated in 3Omega and 12 W. Power dissipated in 4 Omega will be

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