Part of the tuning arrangement of a radio consists of a wheel which is acted on by two parallel constant forces as shown in the fig. If the wheel rotates just once, the work done will be about (diameter of the wheel = 0.05m)

Two forces 50N and 100 N are acting on a rod capable of rotating it about O as shown in Fig. What is the net torque acting on the rod ?

A wheel of radius R and mass M is placed at the bottom of a fixed step of height R as shown in the figure. A constant force is continuously applied on the surface of the wheel so that it just climbs the step without slipping. Consider the torque tau about an axis normal to the plane of the paper passing through the point Q. Which of the following options is/are correct?

When 200 J of work is done on a fly wheel its frequency of rotation increase from 4Hz to 9 Hz . The M.I. of the wheel about the axis of rotations is nearly

A wheel rotating at an angular speed of 20 rad/s ils brought to rest by a constant trouque in 4.0 secons. If the moiment of inertia of the wheel about the axis of rotation is 0.20 kg-m^2 find the work done by the torque in the first two seconds.

A wheel of radius 20 cm has four forces applied to it as shown in fig. Then, the torque produced by these forces about O is. .

During 0.19 sec, a wheel rotates through an angle of 2.36 rad as a point on the peribhery of the wheel moves with a constant speed of 2.87m//s What is the radius of the wheel ?

A wheel of radius R=0.1m is rolling without slipping on a horizontal surface as shown in the firgure. Centre of the wheel moves with a constant speed sqrt3m//s . The speed of the point P with respect to ground is

A cord of negligible mass is wound round the rim of a flywheel of mass 20 kg and radius 20 cm . A steady pull of 25 N is applied on the cord as shown in Fig. The flywheel is mounted on a horizontal axle with frictionless bearings. (a) Compute the angular acceleration of the wheel. (b) Find the work done by the pull, when 2 m of the cord is unwound. (c) Find also the kinetic energy of the wheel at this point. Assume that the wheel stars from rest. (d) Compare answers to parts (b)and (c).

One end of a rod of length L=1 m is fixed to a point on the circumference of a wheel of radius R=1//sqrt3 m. The other end is sliding freely along a straight channel passing through the center O of the wheel as shown in the figure below. The wheel is rotating with a constant angular velocity omega about O. The speed of the sliding end P when theta= 60^(@) is

A flywheel of moment of inertia 5.0 kg m^2 is rotated at a speed of 60 rad/s. Because of the frictionat te axle, it comes to rest in 5.0 minutes. Find a. The average torque of the friction. B. the total work done by the friction and c. the angular momentum of the wheel 1 minute before it stops rotating.