A flexible drive belt runs over a frictionless flywheel (see Figure). The mass per unit length of the drive belt is 1 kg/m, and the tension in the drive belt is 10N. The speed of the drive belt is 2m/s. The whole system is located on a horizontal plane. Find the normal force (in N) exerted by the belt on the flywheel.

A rope of length of 2m is tied between two ends . If the speed of transverse waves propagating in the rope is 4 m s^(-1) and the tension in the rope is 2 N , find the mass of the rope is C.G.S units .

A piano string having a mass per unit length equal to 5.00 xx 10^(3)kg//m is under a tension of 1350 N , Find the speed with which a wave travels on this string.

Two uniform cylinders, each of mass m = 10 kg and radius r = 150 mm, are connected by a rough belt as shown. If the system is released from rest, determine the tension in the portion of the belt connecting the two cylinders.

In an industry a 300 kg crate is dropped vertically from a packing mechine onto a conveyor belt moving at 1.2 m//s The coefficient of kinetic friction between belt and crate is 0.4 After a short time, slipping between the belt and the crate ceases and the crate then moves along with the crate ceases and the crate then moves along with the belt . For the period of time during which the crate is being brought to rest relative to the belt, calculate, for a reference frame (a) the kinetic energy supplied to the crate (b) the magnitude of the kinetic frictional force acting on the crate, the magnitude of energy supplied by the motion (c) Why are the answers to (a) and (c) different

In a new system of units, unit of mass is 10 kg, unit of length is 100 m, unit of time is 1 minutes. The magnitude of 1 N force in new system of units will be

A block of mass sqrt(3)//10kg is placed on a rough horizontal surface as shown in the figure. A force of 1N is applied at one end of the block and the block remains stationary. The normal force exerted by the sruface on the block acts(g=10 m//s^(2) )

A body of mass 1kg lies on smooth inclined plane. The block of mass m is given force F=10 N horizontally as shown. The magnitude of net normal reaction on the block is:

Ona long horizontally moving belt, a child runs to and fro with a speed 9 km h^(-1) (with respect to the belt) between his father and mother located 50m apart on the moving belt. The belt moves with a speed on the moving belt. The belt moves with a speed of 4 km h^(-1) . for an observer on a stationary platform outside, what is the (a) Speed of the child running in the direction of motion of the belt? (b) speed of the child running opposite to the direction of motion of the belt? (c ) time taken by the child in a and b? which of the answers after if motion is viewed by one of the parents?