Figure shows three resistor configurations R1,R2 and R3 connected to 3V vattery If the prower dissipated by the configuration R1,R2 and R3 is P1 ,m P2 and P3 repecitively then
Figure

Figure shows three resistor configurations R1,R2 and R3 connected to 3 V battery . If the powers dissipated by the configuration R1,R2 and R3 are P1,P2 and P3, respectively, then

Figure shows three resistor configurations R_(1),R_(2) and R_(3) connected to 3V battery. If the power dissipated by the configurations R_(1),R_(2) and R_(3) is P_(1),P_(2) and P_(3) respectively, then

Three identical resistors R_(1) = R_(2) = R_(3) are connected as shown to a battery of constant e.m.f . The power dissipated is

Two resistors R and 3 R are connected in series. Ratio of rate of heat dessipated in R to that in 3 R is x_(1) . Similarly when R and 3 R are connected in parallel to each other, ratio of the heat dessipated in R to that in 3 R is x_(2) . What will be the value of x_(2)//x_(1) ?

Three resistors having values R_1,R_2 and R_3 are connected in series to a battery.Suppose R_1 carries a current of 2.0 A, R_2 has resistance of 3.0 ohms, and R_3 dissipates. 6.0 watts of power. Then the voltage across R_3 is

When two resistors of resistances R_1 and R_2 are connected in parallel, the net resistance is 3 Omega . When connected in series, its value is 16 Omega . Calculate the values of R_1 and R_2 .