A wheel of radius ‘R’ is placed on ground and its contact point is 'P'. If wheel rolls without slipping and completes half revolution. Find displacement of point P.

A wheel of radius 'R' is placed on ground and its contact point 'P'. If wheel starts rolling without slipped and completes half a revolution, find the displacement of point.

A ring of mass m and radius R is placed on a rough inclined plane so that it rolls without slipping . Match the following table.

A Wheel of circumference C is at rest on the ground.When the wheel rolls forward through half a revolution ,then the displacement of point contact will be

A point P consider at contact point of a wheel on ground which rolls on ground without sliping then value of displacement of point P when wheel completes half of rotation (If radius of wheel is 1m) : -

A constant horizontal force of 10 N is applied at the centre of a wheel of mass 10 kg and radius 0.30 m . The wheel rolls without slipping on the horizontal surface, and the acceleration of the centre of mass is 0.60 m//s^(2) . a. What are the magnitude and direction of the frictional force on the wheel? b. What is the rotational inertia of the wheel about an axis through its centre of mass and perpendicular to the plane of the wheel?

A spherical shell of radius R is rolling down an incline of inclination theta without slipping. Find minimum value of coefficient of friction.

A disc of radius R rolls without slipping at speed v along positive x -axis. Velocity of point P at the instant shown in Fig. is

The radius of a wheel is R and its radius of gyration about its axis passing through its center and perpendicualr to its plane is K. If the wheel is roling without slipping. Then the ratio of tis rotational kinetic energy to its translational kinetic energy is

A wheel of radius R rolls on the ground with a uniform velocity v. The velocity of topmost point relative to the bottommost point is

A wheel of radius R=2m performs pure rolling on a rough horizontal surface with speed v=10 m/s . In the figure shown, angle theta is angular position of point P on wheel reaches the maximum height from ground. Find the value of "sec"theta (take g=10 m//s^(2) ).