The average velocity of a body moving with uniform acceleration travelling a distance of `3.06 m` is `0.34 ms^(-1)`. If the change in velocity of the body is `0.18 ms^(-1)` during this time, its uniform acceleration is

The average velocity of a body moving with uniform acceleration after travelling a distance of 3.06 m is 0.34 m s^(-1) . If the change in velocity of the body is 0.18 ms^(-1) during this time, its uniform acceleration is .

A body moves from rest with a uniform acceleration and travels 270 m in 3 s. Find the velocity of the body at 10 s after the start.

A body moving with uniform acceleration describes 40 m in the first 5 s and 70 m in the next 5 s.its initial velocity will be

Draw the velocity-time graph of an object moving with uniform negative acceleration.

The velocity-time graph of a body is given in. The maximum acceleration in ms^(-1) is . .

A body is moving with uniform acceleration covers 200 m in the first 2 s and 220 m in the next 4s. Find the velocity in ms ^(-1) after 7 s.

A body is moving with uniform acceleration describes 40 m in the first 5 sec and 65 m in next 5 sec. Its initial velocity will be

For a body moving with uniform acceleration along straight line, the variation of its velocity (v) with position (x) is best represented by

A body moving with uniform acceleration travels 84 m in the first 6 s and 180 m in the next 5 s. Find : (a) the initial velocity, and (b) the acceleration of the body.

If the average velocity of a body moving with uniform acceleration under the action of a force is ''v'' and the impulse it receives during a displacement of ''s'' is ''I'', the constant force acting on the body is given by