A,B and C are parallel conductros of equal length carrying currents I. I and 2I respectively. Distance between A and B is x. Distance between B and C is also x. `F_(1)` is the force exerted by B on A and `F_(2)` is the force exerted by B on A choose the correct answer

Two parallel conductors A and B of equal lengths carry currents I and 10 I , respectively, in the same direction. Then

In the following figure, if magnitude of forces between B and C is F, then magnitude of force between A and B is

When a conductor of length l carrying a current I is placed in a magnetic field of induction B at an angle theta with respect to vec(B) , the force experienced by it is

Two long parallel conducting wires carry current I in same direction, placed at distance b. Force per unit length of wire is

In the show arrangement mass of A=1 kg, mass of B= 2kg. Coefficient of friction between A and B =0.2 There is no friction between B and ground. The frictional force exerted by A on B equals.

The contact force exerted by a body A on another body B is equal to the normal force between the bodies. We concude that

Two point masses A and B having masses in the ratio 4:3 are separated by a distance of 1m. When another point mass C of mass M is placed in between A and B, the force between A and C is (1/3)^(rd) of the force between B and C. Then the distance C from A is

Two long thin parallel conductors C and D of the shape as shown in figure. Carry currents I_1 and I_2 . The separation between the conductors is a, the width of the right hand conductor is equal to b. Both the conductors are lying in one plane. Find the magnetic interaction force between them reduced to a unit length.

Two long, thin parallel conductors, separated by a distance d , carrying currents i_(1) and i_(2) . The force acting on unit length of any one conductor is F