Exams › JEE Advanced › Physics

AB and CD are two frictionless parallel rails a distance l apart, inclined at angle theta to the horizontal. A uniform magnetic field of magnitude B points vertically upward throughout the region. A conducting rod EF of mass m, carrying current i, rests across the rails. For EF to remain in equilibrium on the incline, which condition holds?

1. Current must flow from E to F
2. B*i*l = m*g*tan(theta)
3. B*i*l = m*g*sin(theta)
4. B*i*l = m*g

Correct answer: B*i*l = m*g*tan(theta)

Solution

Since B is vertical and the rod (current direction) is horizontal, the magnetic force F = B*i*l is horizontal. For equilibrium on the incline, resolve along the slope: the horizontal force's component up the incline, F*cos(theta), must balance the gravity component down the incline, m*g*sin(theta). So B*i*l*cos(theta) = m*g*sin(theta), giving B*i*l = m*g*tan(theta).

Related JEE Advanced Physics questions

• Two parallel conductors lie in the plane of the paper, separated by a distance X₀. A charged particle travels with velocity v between these wires, maintaining a distance X₁ from one of them. When both wires carry identical currents I flowing in the same direction, the particle's trajectory has a curvature radius of R₁. Conversely, if the currents in the wires flow in opposite directions, the curvature radius becomes R₂. Given that X₁/X₀ equals 3, determine the ratio R₁/R₂.
• A current-carrying wire of infinite length is placed along the z-axis, carrying current I in the positive z-direction, generating a magnetic field B. What is the value of the line integral ∮ B⋅dℓ along a straight path connecting the points (−√3a, a, 0) and (a, a, 0)? [Here, μ₀ represents the permeability of free space.]
• A charged particle has specific charge (charge-to-mass ratio) alpha. It starts from rest at the origin at t = 0 with initial velocity v0*i_hat + v0*j_hat in a uniform magnetic field B0*i_hat. Find the coordinates of the particle at time t = pi / (alpha * B0).
• Two infinitely long, thin, straight parallel wires are separated by a distance of 0.1 m and each carries a current of 10 A. A point P is equidistant from both wires at a distance of 0.1 m from each. Find the magnitude of the net magnetic field at P when the currents flow in (i) the same direction and (ii) opposite directions.
• A straight conducting wire of length 2*pi*R carries a steady current I. It is bent so that it forms an arc of a circle of radius R, leaving a gap of angle theta (in radians) at the top. Find the magnitude of the magnetic field at the centre O of the circle. (Assume the two short straight ends at the gap meet at the centre and contribute zero field.)
• A particle of charge 20 μC and mass 20 μg moves in a circular orbit of radius 5 cm under the influence of a uniform magnetic field B = 0.1 T. At point P on the circle, a uniform electric field is suddenly switched on, after which the particle moves along the tangent at P with constant velocity. What is the magnitude of the electric field?

⚔️ Practice JEE Advanced Physics free + battle 1v1 →