The speed v reached by a car of mass m in travelling a distance x, driven with constant power P, is given by

The kinetic energy acquired by a mass m after travelling a fixed distance from rest under the action of constant force is

A particle travels half of the time with constant speed 2 m//s, In remaining half of the time it travels, 1/4 th distance with constant speed of 4 m//s and 3/4 th distance with 6 m//s. Find average speed during the complete journey.

A self-propelled vehicle of mass m, whose engine delivers a constant power P, has an acceleration a = (P//mv) . (Assume that there is no friction). In order to increase its velocity from v_(1) to v_(2) , the distan~e it has to travel will be:

The speed of a car as a function of time is shown in figure. Find the distance travelled by the car in 8 seconds and its acceleration.

A man in a car at location Q on a straight highway is moving with speed v He decides to reach a point P in a field at a distance d from the highway (point M) as shown in th e figure . Speed of the car in the field is half to that on the highway what should be the distacne RM so that the time taken to reach P is minimum ?

A car of mass 300 kg is travelling on a circular track of radius 100 m with a constant speed of 60 m/s Calculate the angular momentum ?

A car of mass 300 kg is travelling on a circular track of radius 100 m with a constant speed of 60 m/s Calculate the angular momentum ?

A sphere A of mass m, travelling with speed v, collides directly with a stationary sphere B. If A is brought to rest and B is given a speed V, find (a) the mass of B (b) the coefficient of restitution between A and B?

A particle of mass m is driven by a machine that delivers a constant power k watts. If the particle starts from rest the force on the particle at time t is

An automobile engine propels a 1000 kg car (A) along a levelled road at a speed of 36 km//h. Find the power if the opposing frictional force is 100 N Now, suppose after travelling a distance of 200 m, this car collides with another stationary car (B) of same mass and comes to rest. Let its engine also stop at the same time. Now car (B) starts moving on the same level road without getting its engine started. Find the speed of the car (B) just after the collision.