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 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 started from rest and it is travelling with velocity of 20 m/s in 10 s. What is its acceleration?

A car starts from rest and travels with uniform acceleration a, for some time and then with uniform retardation beta and comes to rest. If the total time of car is 't', the maximum velocity attained by it is given by

A car starting with velocity 10 "m.s"^(-1) attains an acceleration 1 "m.s"^(-2) . What would be the velocity after traveling the first 100 m of the path?

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 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 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 .