The current in the resistance R will be zero if

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) and V_(2) and three resistance R_(1)R_(2) and R_(3) are connected The current in resistance R_(2) would be zero if

Current in 3 Omega resistance is

Current in resistance is 1 A , then

Find the current through the resistance R in figure.If (a) R=12 Omega (b) R=48 Omega .

In the given circuit, each resistance is r = 18.75Omega . The current(in A) in the resistance connected across A and B is '………..'A. .

Under what condition, the current passing through the resistance R can be increased by short - circuiting the battery of emf E_2 The internal resistances of the two batteries are r_1 and r_2, respectively.

A rod of length L and resistance r rotates about one end as shown in . Its other end touches a conducting ring of negligible resistence. A resistence R is connected between the center and periphery. Draw the electrical equivalence and find the current in resistance R . There is a uniform magnetic field B directed as shown in .

A rod of length L and resistance r rotates about one end as shown in . Its other end touches a conducting ring of negligible resistence. A resistence R is connected between the center and periphery. Draw the electrical equivalence and find the current in resistance R . There is a uniform magnetic field B directed as shown in .

A rod of length l and resistance r rotates about one end as shown in figure.Its othr end touches a conducting ring a of negligible resistance. A resistance R is connected between centre and periphery.Draw the electrical equivalence and find the current in the resistance R .There is a uniform magnetic field B directed as shown.