For the velocity time graph shown in Fig. 2 (CF).14, the distance covered by the body in last two seconds of its what fraction if the total distance covered by it in all the seven seconds?
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For the velocity tiem graph shown in Fig. 2 (CF).14, the distance covered by the body in last two seconds of its what fraction if the total distance covered by it in all the seven seconds? .

The velocity time graph of a body represented as shown in Fig. Calculate the distance by the body in 5 second.

A stone falls freely such that the distance covered by it in the last second of its motion is equal to the distance covered by it in the first 5 seconds. It remained in air for :-

A ball is dropped from the roof of a tower height h . The total distance covered by it in the last second of its motion is equal to the distance covered by it in first three seconds. The value of h in metre is (g=10m//s^(2))

The velocity-time graph of a linear motion is shown below. The distance from the origin after 8 seconds is :

In the previous problem, distance covered in the 7^(th) second is

The velocity time graph of a body is shown in fig. it indicates that :

A ball is dropped from the roof of a tower of height (h). The total distanc coverd by it in the last second of its motion is equal to the distance covered by in first three seconds. What will be the velocity at the end of 9 secind ?

Velocity -time graph for a body of mass 10 kg is shown in figure. Work -done on the body in first two seconds of the motion is :