In previous question, if the total distance covered by the car is s, the maximum speed attained by it will be :

In the previous question, the total distance traveled is

A train starts from rest and moves with a constant accelerationof 2.0 m/s^2 for half a minute. The brakes are then applied and the train comes to rest in one minute. Find a. the total distance moved by the train, b. the maximum speed attained by the train and c. the position(s) of the train at half the maximum speed.

A car accelerates from rest with 2m/s^(2) on a straight line path and then comes to rest after applying brakes.Total distance travelled by the car is 100m in20 seconds then the maximum velocity attained by the car is

A motor car, starting from rest, moves with uniform acceleration and attains a velocity of 8 ms^(-1) in 8 s. It then moves with uniform velocity and finally brought to rest in 32 m under unifrom retardation. The total distance covered by the car is 464 m. Find the total time taken.

If the distance of 200 m is covered in 20 s, then the speed is

A car accelerates from rest at acionstant rate 36 km h^@ to comet to rest. If the total time elapsed id 1 hour, calculate (i) the maximum velocity attained by the car and (ii) the total distance travelled by car.

In previous question maximum speed of the block placed horizontally is:

In the previous question, the height attained by the rocket before deceleration is :

A motor car, starting from rest, moves with uniform acceleration and attains a velocity of 8 ms^(-1) in 8 s. It then moves with uniform velocity and finally brought to rest in 32 m under unifrom retardation. The total distance covered by the car is 464 m. Find the acceleration.