When a body of mass 120 g, resting on a horizontal plane is pulled by a rope inclined at an angle `30^(@)` with the horizontal it acquires a velocity of 9.8 `"m.s"^(-1)` in 10 s. If the tension in the string is 0.588 N, what is the coefficient of sliding friction ? g = 9.8 `"m.s"^(-2)`

A body of mass 5xx10^(-3) kg is projected upwards along a plane inclined at an angle of 30^(@) with the horizontal. If the time required by the body to move up the incline is half the time required for it to slide down find the coefficient of friction between the surface and the body.

A body is kept on a horizontal rough plane. The plane is then gradually raised to an inclination of 30^(@) with the horizontal and the body starts to slide down. The body descends 12 m along the inclined plane in the next 4 s. Find the coefficients of static and kinetic friction between the surfaces in contact.

Standing on an icy surface a man of mass 60 kg throws a stone of mass 3 kg horizontally at a velocity of 8 "m.s"^(-1) . How far does he slide back if the coefficient of sliding friction between the man and the icy surface is 0.02?

A body is rolling on the ground with a velocity of 1 m/s. After travelling a distance of 5m, it comes to rest. Find the coefficient of friction.Take g = 10 m/s^2 .

A body of mass 2 kg starts from rest and moves with uniform acceleration . It acquires a velocity 20 m*s^(-1) in 4 s. (i) Power exerted on the body at 2s is

A body of mass 20g is moving with a constant velocity of 3m/s on a horizontal frictionless surface in a vacuum. What is the net horizontal force acting on the body.

Force required to move a mass of 1 kg at rest on a horizonlal rough plane (coefficient of friction 0.1 and g=9.8 m//s^(2) ) is