For ensuring dissipation of same energy in all three resistors `(R_(1), R_(2), R_(3))` connected as shown in figure, their values must be related s

For ensuring disspation of same energy in all three resistors (R_1, R_2, R_3) connected as shown in figure, their values must be related as –

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

Find the heat developed per minutes in each of the three resistors R_(1),R_(2) and R_(3)

Two ideal batteries of emf V_1 and V_2 and three resistances R_1, R_2 and R_3 are connected as shown in the figure. The current in resistance R_2 would be zero if

Two ideal batteries of emf V_(1)andV_(2) and these resistances R_(1),R_(2)andR_(3) are connected as shown in the figure . The current in resistance R_(2) would be zero if

If resistors of resistance R_(1) and R_(2) are connected in parallel,then resultant resistance is "

A resistor R is connected to a cell as shown in the figure. The value of R for which in its is maximum is:-

Find the currents going through the three resistors R_(v),R_(2)andR_(3) in the circuit of figure.

An uncharged capacitor C and a variable resistance R are connected to an ideal source and two resistors with the help of a switch at t=0 as shown in the figure. Initially capacitor is uncharged and switch S is closed at t=0 sec . The graph between V_(A)-V_(B) for variable Resistor R for its three different values R_(1) , R_(2) , and R_(3) versus time is shown in the figure II . Choose the correct statement