In Figure below, power developed in resistor `R_(1)` is 120W. Find the power developed in resistor `R_(3)`.

Two resistors R_(1) = 400 Omega and R_(2) = 20 Omega are connected in parallel to a battery. If heating power developed in R_(1) is 25. W. find the heating power developed in R_(2) .

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

In the circuit shown the average power developed in the resistor R_(1) is

the current developed in a real conductor is given I=aV^(1//2), where V is the potential difference acid the conductor. When it is connected with resistance of R Omega in series with a battery of 6 volt shown in the figure , the power developed in conductor is twice the power generated in resistance of R Omega . find the value of R."["a=0.2 A "Volt"^(-1//2)"]"

Find the current through resistor R.

Two resistors R_1 = 60 Omega and R_2 = 90Omega are connected in parallel. If electric power consumed by the resistor R_1 is 15 W, calculate the power consumed by the resistor R_2

A capacitor of capacitance C, charged to a potential difference V, is discharged through a series combination of two resistors R_(1) and R_(2) . Find the heat generated in resistor R_(1) during discharging.

Find the current through resistor R

Figure (A) and (B) show two resistors with resistances R_(1) and R_(2) connected in parallel and in series. The battery has a terminal voltage of e. Suppose R_(1) and R_(2) are connected in parallel . (a) Find the power delivered to each resistor. (b) Show that the power used by each resistor is equal to the power supplied by the battery . Suppose R_(1) and R_(2) are now connected in series (c ) Find teh power delivered to each resistor. (d) Show that the sum of the power by each resistor is equal to the power supplied by the battery. (e ) Which configuration , parallelor series, uses more power ?

The value of resistor R as shown in the given circuit is such that the power developed in the resistor R is maximum at steady state. The maximum charge stored on the capacitor is 100/K muC . Find K.