Particles are released from rest at A and slide down the smooth surface of height h to a conveyor B. The correct angular velocity `omega` of the conveyor pulley of radius r to prevent any sliding on the belt as the particles transfer to the conveyor is

Particles are released from rest A and slide down the smooth surface of hight h to a conveyor B. The correct angular veleocity omega of the coneyor pulley of radius r to prevent any sliding on the belt as the particles transfer to the conveyor is

A blcok A starts sliding on a smooth track from a height h as shown in the figure. The track smoothly joins into a conveyor belt which is being driven by a pulley of radius r. I the angular velocity omega of the pulley is such that the block A doesn't slip on the belt, the value of omega is

A block is released at A and slides on smooth surface in shape of quarter circel. The horizontal part is rough if the block comes to rest 1.0 m away from B, then what is the coefficient of kinetic friction?

A particle is at rest with respect to the wall of an inverted cone rotating with uniform angular velocity omega about its central axis. The displacement of particle along the surface up or down, the equilibrium of particle is

A particle is revolving in a circle of radius r and centre at 'O' with uniform angular velocity omega . Choose the correct option(s) :

A particle is given a velocity (v_(e ))/(sqrt(3)) in a vertically upward direction from the surface of the earth, where v_(e ) is the escape velocity from the surface of the earth. Let the radius of the earth be R. The height of the particle above the surface of the earth at the instant it comes to rest is :

In the figure shown, a solid sphere of mass 'm' and radius r is released from a height 6r to slide down a smooth surface. A plank of same mass 'm' touches the horizontal portion of the surface at the ground. The co-efficient of friction between the plank and the sphere is mu and that between the plank and the ground is mu//4 . Find the work done by the friction force between the plank and the ground till the sphere starts pure rolling on the plank. Neglect the height of the plank.

A particle of mass m is released from a height H on a smooth curved surface which ends into a vertical loop of radius R , as shown. Choose the correct alernative(s) if H=2R .

A particle of mass m is released from a height H on a smooth curved surface which ends into a vertical loop of radius R , as shown. Choose the correct alernative(s) if H=2R .

A particle describes a horizontal circle of radius r on the smooth surface of an inverted cone as shown. The height of plane of circle above vertex is h. The speed of particle should be