A force with a given magnitude is to be applied to a wheel. The torque can be maximised by

Four forces of the same magnitude act on a square as shown in figure. The square can rotate about point O , mid point of one of the edges. The force which can produce greatest torque is

Force and torque

The angular momentum vector for a spinning wheel lies along its axle and is pointed north. To make this vector point east with chagin magnitude it is necessary to exert a force of constant magnitude on the north end of the axle in which direction?

A homogeneous block rests against a vertical wall for which the coefficient of friction is 1//2 . A force 'F' is applied to the block in the direction as shown in figure. Find the maximum magnitude of applied force 'F' such that block remains in rest.

A force of constant magnitude F_(0) is applied in the tangential direction as shown in the figure. Assume that the bob is at its lowest point initially.

A wheel of mass 10 kg and radius 0.2 m is rotating at an angular speed of 100 rpm, when the motion is turned off. Neglecting the friction at the axis. Calculate the force that must be applied tangentially to the wheel to bring it to rest in 10 rev. Assumed wheel to be a disc.

A wheel of mass 10 kg and radius 0.2 m is rotating at an angular speed of 100 rpm, when the motion is turned off. Neglecting the friction at the axis. Calculate the force that must be applied tangentially to the wheel to bring it to rest in 10 rev. Assumed wheel to be a disc.

A force vec F = 2 hat i + 3 hat j N is applied to an object that is pivoted about a fixed axle aligned along the z coordinate axis. If the force is applied at the point vec r = 4 hat i + 5 hat j m , (a) the magnitude of the net torque about the z and (b) the direction of the torque vector tau .

The minimum number of forces of equal magnitude in a plane that can keep a particle in equilibrium is

A flywheel whose moment of inertia about its axis of rotation is 16kg-m^(2) is rotating freely in its own plane about a smooth axis through its centre. Its angular velocity is 9rads^(-1) when a torque is applied to bring it to rest in t_(0) seconds find t_(0) if (a). The torque is constant and of magnitude 4 N-m (b). The magnitude of the torque after t second is given by kt .