A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at `x=0`, where, x is the position of the car at any time 't'.

The time interval during which the car is retarding can be :-

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. The maximum displacement from the starting position will be :-

The velocity of a car as a function of time is shown in Fig. Find the distance travelled by the car in 8 s and its acceleration.

Car A and car B move on a straight road and their velocity versus time graph are as shown in figure. Comparing the motion or car A in between t=0 to t =8 sec . And motion of car B in between t=0 to t=7 sec ., pick up the correct statement. .

A car is moving on a straight road with a speed of 20 m//s . The drive of the car put the breaks at some instant which retards the car uniformly at a rate of 2 m//s^(2) , until the car stops completely then find the time (t_(0)) taken by the car and distance (d) travelled by car, from the instant the drive put the breaks till it stops:

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 racing car is travelling along a straight track at a constant velocity of 40m//s . A fixed TV camera is recording the even as shown in figure. In order to keep the car in view in the position shown the angular velocity of camera should be

The speed of a car as a function of time is shown in figure. Find the distance travelled by the car in 8 seconds and its acceleration.

The velocity-time graphsof a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 and (ii) the time at which the car will catch up with the scooter are, respectively.

The velocity-time graphs of a car and a scooter are shown in the figure. (i) The difference between the distance travelled by the car and the scooter in 15 s and (ii) the time at which the car will catch up with the scooter are, respectively.

At time t = 0, a car moving along a straight line has a velocity of 16 ms^-1. It slows down with an acceleration of -0.5t ms^-2, where t is in second. Mark the correct statement (s).