A car is travelling on a road. The maximum velocity the car can attain is `24 ms^-1` and the maximum deceleration is `4 ms^-2.` If car starts from rest and comes to rest after travelling 1032m in the shortest time of 56 s, the maximum acceleration that the car can attain is

A car is travelling on a straight road. The maximum velocity the car Can attain is 24 ms^-1. The maximum acceleration and deceleration it can attain are 1 ms^-2 and 4 ms^-2 respectively. The shortest time the car takes from rest to rest in a distance of 200 m is,

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

A box of mass 2 kg is placed on the roof of a car. The box would remain stationary until the car attains a maximum acceleration. Coefficient of static friction between the box and the roof of the car is 0.2 and 1 g=10" ms"^(-2) . The maximum acceleration of the car, for the box to remain stationary, is

A car is travelling at 36 kmph on a road . The maximum turning radius of the car is 20 m ans g=10m//s^(2) .Then the coefficient of friction between its tyres and the road is

A body starts from rest at time t = 0 , the acceleration time graph is shown in the figure . The maximum velocity attained by the body will be

A car accelerates from rest with 2ms^-2 for 2s and then decelerates constantly with 4ms^-2 for t_0 second to come to rest. The graph for the motion is shown in figure. a. Find the maximum speed attained by the car. b. Find the value of t_0 .

A car accelerates from rest at a constant rate alpha for sometime , after which it decelerates at a constant rate beta and comes to rest. If T is the total time elapsed, the maximum velocity acquired by the car is

A car is to be hoisted by elevator to the fourth floor of a parking garage, which is 14 m above the ground. If the elevator can have maximum acceleration of 0.2 m//s^2 and maximum deceleration of 0.1 m//s^2 and can reach a maximum speed of 2.5 m//s, determine the shortest time to make the lift, starting from rest and ending at rest.