Two resistors R and 2R are connected in series in an electric circuit. The thermal energy developed in R and 2R are in the ratio

Two resistances R and 2R are connected in parallel in an electric circuit. The thermal energy developed in R and 2R are in the ratio

In the circuit diagram,heat produces in R, 2R and 1.5 R are in the ratio of

In L-C-R series circuit

When two resistances R_1 and R_2 are connected in series , they consume 12 W powers . When they are connected in parallel , they consume 50 W powers . What is the ratio of the powers of R_1 and R_2 ?

What is the ratio of heat generated in R and 2R

Two unequal resistances R_1 and R_2 ae connected across two identical batteries of emf epsilon and internal resistance r (figure) . Can the thermal energies developed in R_1 and R_2 be equal in a given time. If yes, what will be the condition? (Figure Question)

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

A parallel combination of an 8 Omega resistor and an unknown resistor R is connected in series with a 16 Omega resistor and a battery. This circuit is then disassembled, and the three resistors are then connected in series with each other oand the same battery. in both arrangements, the current through the 8 Omega resistor is the same. What is the unknown resistance R?

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) .

When resistors R_(1) and R_(2) are connected in a parallel electric circuit, the total resistance is (1)/((1)/(R_(1))+(1)/(R_(2))) . This fraction is equivalent to