An electric current I enters and leaves a uniform circular wire of radius a through diametrically opposite points. A charged paricle q moving along the axis of the circular wire passes through its centre at speed v. The magnetic force acting on the particle when it passes through the centre has a magnitude

A circular loop of radius 20 cm carries a current of 10 A. An electron crosses the plane of the loop with a speed of ( 2.0 xx (10^6) m s^-1). The direction of motion makes an angle of 30^@ with the axis of the circle and passes through its centre. Find the magnitude of the magnetic force on the electron at the instant it crosses the plane.

Calculate the moment of inertia of uniform circular disc of mass 500 G radius 10 cm about (i) the diameter of the disc. (ii) the axis, tangent to the disc and parallel to its diameter (iii) the axis through the centre of the disc and perpendicular to its plane.

A circular wire-loop of radius a carries a total charge Q distributed uniformly over its length . A small length dL of the wire is cut off. Find the electric field at the centre due to remaining wire.

A circular loop has radius R and a current I flows through it. Another circular loop has radius 2R and a current 2I flows through it. Ratio of the magnetic fields at their centres is

Calculate the ratio of radii of gyration of a circular ring and dise of the same radius with respect to the axis passing through their centres and perpendicular to their planes.

From a disc of radius R a mass M, a circular hole of diameter R, whose rim passes through the centre is cut. What is the moment of inertia of the remaining part of the disc about a perpendicular axis passing through it

Assertion : When a test charge is released in a uniform electric field, then it will moves along the fixed line passing through that point. Reason : The tangent at a point on the electric field gives the direction of the electric field at that point.

Electric charge is uniformly distributed along a long straight wire of radius 1 mm. The charge per cm length of the wire is Q coulomb. Another cylindrical surface of radius 50 cm and length 1 m symmetrically encloses the wire. The total electric flux passing through the cylindrical surface is

A uniform magnetic field of 1.5 T exists in a cylindrical region of radius 10.0 cm, its direction parallel to the axis is along east to west. A wire carrying current of 7.0 A in the north to south direction passes through this region. What is the magnitude and direction of the force on the wire if, a. the wire intersects the axis, the wire is turned from N S to north east-south west direction. c. the wire in the N-S direction is lowered from the axis by a distance 6.0 cm.

What is the current passing through a coil of radius of 8 cm having 50 turns, when a magnetic field at the centre of the coil is 1.57xx10^(-6) T ?