A car starts from rest, attain a velocity of `36 km h^(-1)` with an acceleration of `0.2 m s^(-2)`, travels 9 km with this uniform velocity and then comes to halt with a uniform deaceleration of 0.1 `m s^(-2)`. The total time of travel of the car is

A car starts from rest, attains a velocity of 36 kmh^-1 with an acceleration of 0.2 ms^-2 , travels 9 km with this uniform velocity and then comes to halt with a uniform deceleration of0.1 ms^-2 . The total time of travel of the car is

A car starting from rest acquires a velocity 180 m s^(-1) in 0.05 h. Find the acceleration.

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

A train attains a velocity v after starting from rest with a uniform acceleration alpha . Then the train travels for sometime withuniform velocity, and at last comes to rest with a uniform retardation beta . If the overall displacement is s in time t , show that t = (s)/(v)+(v)/(2)((1)/alpha+(1)/(beta))

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.

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.

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 retardation