A car of mass m has an engine which can deliver power P, The minimum time in which car can be accelerated from rest to a speed v is

A car of mass m has an engine which can deliver constant power P.the maximum speed that the car can attain in t seconds in

A car can be stopped within a distance of s when its speed is v. What is the minimum distance within which the car can be stopped during the same time when its speed is nv ?

A car is moving up the plane. Angle of inclination is theta and coeffcient of friction is mu (a)What is the condition in which car can be acceleration? If this condition is satisfied then find (b) maximum acceleration of the car. (c) minimum retardation of the car. (d) maximum retardation of the car.

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

On a horizontal rough road , value of coefficient of friction mu =0.4 .Find the minimum time in which a distance of 400m can be covered. The car start from rest and finally comes to rest.

A car of mass m is initially at rest on the boat of mass M tied to the wall of dock through a massless, inextensible string. The car accelerates from rest to velocity v_(0) in times to. At t = t_(0) the car applies brake and comes to rest relative to the boat in negligible time. Neglect friction between the boat and water: the time 't' at which boat will strike the wall is

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:

In a car race, car A takes time t less than car B and passes the finishing point with a velocity of 12m//s more than the velocity with which car B passes the finishing point. Assume that the cars A and B start from rest and travel with constant acceleration of 9 m//s^(2) and 4 m//s^(2) , respectively. If v_(A) and v_(B) be the velocities of cars A and B, respectively, then

The maximum acceleration that can be produced by the engine of a vehicle is 5ms^(-2) and the maximum retardation is brake can produce is 10ms^(-2) . Then the minimum time during which it can cover a distance of 60 m is

A body of mass 2 kg is driven by an engine delivering a constant power of 1 J /s. The body starts from rest and moves in a straight line. After 9 seconds, the body has moved a distance ( in m) ……….. .