A bead is arranged to move with constant speed around a loop that lies in a vetical plane. The magnitude of the net force on the bead is

A particle is moving with constant speed v in xy plane as shown in figure. The magnitude of its angular velocity about point O is

A particle of mass m moves with constant speed v on a circular path of radius r. Find magnitude of average force on it in half revolution.

A particle is moving with a constant speed along a straight line path. A force is not required to

As shown in the figure a block of mass 'm' is placed on a smooth wedge moving with constant acceleration such that block does not move with respect to the wedge. Find work done by the net force on the block in time t. (Initial speed is 0)

A particle is moving along a circular path with a constant speed 10 ms^-1 .What is the magnitude of the change in velocity of the particle ,when it moves through an angle of 60^@ around the center of the circle ?

Figure shows a rectangular current-carrying loop placed 2cm away from a long, straight, current carrying conductor. What is the direction and magnitude of the net force acting on the loop?

A thin wire of length L is made of an insulating material. The wire is bent to form a circular loop, and a positive charge q is distributed uniformly around the circumference of the loop. The loop is then set into rotation with angular speed omega around an axis through its centre. If the loop is in the region where there is a uniform magnetic field vec(B) directed parallel to the plane of the loop, calculate the magnitude of the magnetic torque on the loop.

A circular loop has a small bead which can slide on it without friction. The radius of the loop is r. Keeping the loop vertically it is rotated about a vertical diameter at a constant angular speed omega . What is the value of angle theta , when the bead is in dynamic equilibrium ?