A car moving along a straight road with ...

A car moving along a straight road with a speed of 120 km/hr, is brought to rest by applying brakes. The car covers a distance of 100 m before it stops. Calculate (i) the average retardation of the car (ii) time taken by the car to come to rest.

Text Solution

Verified by Experts

`50//9 m//sec^2, 6 sec`

Similar Questions

Explore conceptually related problems

A car moving along a straight road with a speed of 120 km//hr is brought to rest by applying brakes. The car covers a distance of 100 m before it stops. Calculate (i) average retradation of the car. (ii) time taken by the car to come rest.

Solve the following examples: (numerical problems) A car of mass 1800 kg moving with a speed of 10 m/s is brought to rest after covering a distance of 50 m. Calculate the force applied to the car.

In a certain time interval, the velocity of a car reduces from 72 km/h to 36 km/h. If the car covers a distance of 150 m during this time interval, find the retardation of the car.

A car accelerates on a straight road from rest to a speed of 180 km//hr in 25 second. Assuming Unifrom acceleration of the car out, the distance covered in this is

A car is moving along a straight horizontal road with a speed v_(0) . If the coefficient of friction between the tyres and the road is mu , the shortest distance in which the car can be stopped is

A car takes 20 minutes to cover a distance of 94 km. Find its speed in m/s .

A body is moving along a straight horizontal road with a velocity of 21 m/s comes to rest after moving a certain distance. If mu between the body and the surface of road is 0.3, the distance covered is [g =9.8ms^(-2)]

A local train, travelling at 72 km/hr is brought to rest in 10 seconds by applying the brake. How much is the acceleration produced in this case? Also how much is distance (s) covered by the train before coming to rest?

A car is moving along a circular road at a speed of 20 m//s . The radius of circular road is 10 m. IF the speed is increased at the rate of 30 m//s^2 , what is the resultant acceleration at that moment?

An automobile travelling with a speed of 60 km h^-1 can apply brakes to stop after covering a distance of 20 m. If the car is going iwit as fast i.e., 120 km h^-1 , the stopping distance will be

A car moving along a straight road with a speed of 120 km/hr, is brought to rest by applying brakes. The car covers a distance of 100 m before it stops. Calculate (i) the average retardation of the car (ii) time taken by the car to come to rest.

Text Solution

Similar Questions

Recommended Questions