A circular coil of radius R is moving in a magnetic filed B with a velocity v as shown in the figure.

Find the emf across the diametrically opposite points A and B.

A particle is given velocity v_0 at point A as shown in the figure. Find the speed of particle at point B,C and D

Magnetic field in a space is given as B = -(B_(o)x)/(R )hat(k) . A circular ring of radius R having current I lies in the space with centre at origin as shown in the figure. Find the magnitude of net magnetic force acting on the circular ring due to the magnetic field.

A particle of mass M is moving in a horizontal circle of radius R with uniform speed V . When it moves from one point to a diametrically opposite point , its

A particle of mass M is moving in a horizontal circle of radius R with uniform speed V. When it moves from one point to a diametrically opposite point, its

A particle is moving in a circle with uniform speed v . In moving from a point to another diametrically opposite point

A circular disc of radius R is rotating about its axis O with a uniform angular velocity omega"rad s"^(-1) as shown in the figure. The magnitude of the relative velocity of point A relative to point B on the disc is

Magnetic field induction at the centre of a circular coil shown in the figure is

A particle is moving in a circle of radius r with speed v as shown in the figure. The magnitude of change in velocity in moving from P to Q is