If done, then after how long the car will stop and how far will it go before staying on brake? 14. A car is coming at a velocity of 20 m / s. If the brakes apply 4.0 m / s. How much 13

How long will it take to stop a car travelling at a speed of 20 m//sec , if the uniform acc. during braking is -5 m//s^(2) ?

By applying the brakes without causing skid, the driver of a car is able to stop his car with in a distance of 5 m , if it is going at 36 kmph . If the car were going at 72 kmph . Using the same brakes, he can stop the car over a distance of

A car moving at 40 km/h is to be stopped by applying brakes in the next 4 m. If the car weighs 2000 kg, what average force must be applied on it?

Find the initial velocity of a car which is stopped in 10 seconds by applying brakes. The retardation due to brakes is 2.5 m/ s^(2) .

A car is moving with a velocity 20 m s^(-1) . The brakes are applied to retard it at a rate of 2 m s^(-2) . What will be the velocity after 5 s of applying the brakes ?.

A car is moving in a straight line with speed 18 km h^(-1) . It is stopped in 5 s by applying the brakes. Find the speed of car after 2 s of applying the brakes.

A car moving with a speed of 40 km/hr comes to rest at a distance of 2 m after applying brakes. If the same car is moving with a speed of 80 km/hr, what is the minimum stopping distance?

A car is traveling at 7.0 m/s when the driver applies the brakes. The car moves 1.5 m before it comes to a complete stop. It the car had been moving at 14 m/s, how far would it have continued to move after the brakes were applied ? Assume the braking force is constant .

A car travels with a uniform velocity of 25 m s^(-1) for 5 s. The brakes are then applied and the car is uniformly retarded and comes to rest in further 10 s. Find : (i) the distance which the car travels before the brakes are applied, (ii) the retardation,and (iii) the distance travelled by the car after applying the brakes.