Calculate the force `F` that is applied horizontally at the axle of the wheel which is necessary to raise the wheel over the obstacle of height `0.4 m`. Radius of wheel is `1m` and `mass = 10 kg` . `F` is

The minimum horizontal force applied to the centre of wheel of radius R and weight w to pull it over a step of height R//2

A torque of 20 N-m is applied on a wheel initially at rest. Calculate the angular momentum of the wheel after 3 sec.

The angular velocity of a wheel is 70 rad//sec . If the radius of the wheel is 0.5 m , then linear velocity of the wheel is

Calculate the angular speed of againt wheel of radius 10 m, moving with a speed of 10m//s .

A flywheel of mass 25 kg has a radius of 0.2 m . It is making 240 rpm. What is the torque necessary to bring it to rest in 20 s ? If the torque is due to a force applies tangentially on the rim of the wheel, what is the magnitude of the force ? Assume that mass of flywheel is concentrated at its rim.

A cord is wound around the circumference of a bicycle wheel (without tyre) of diameter 1 m . A mass of 2 kg is tied at the end of the cord and it is allowed to fall from rest. The weight falls 2 m in 4 s . The axle of the wheel is horizontal and the wheel rotates which its plane vertical. if g = 10 ms^(-2) , what is the angular acceleration of the wheel ?

The moment of inertia of a solid flywheel about its axis is 0.1 kg-m^(2) .A tangential force of 2 kg-wt. is applied round the circumference of the flywheel with the help of a string and mass arrangement as shown in the figure. If the radius of the wheel is 0.1 m, find the acceleration ("in rad/sec"^(2)) of the mass :

The M.I. of a wheel of mass 8 kg and radius of gyration 25 cm is

A wheel has mass of the rim 1 kg, having 50 spokes each of mass 5g. The radius of the wheel is 40 cm. The moment of inertia is