A body is moving along the +ve X-axis with uniform acceleration of `-4ms^(2)` Its velocity at x = 0 is `10 ms^(-1)`. The time taken by the body to reach a point at x = 12m is 

A body of mass 2kg starts from rest and moves with uniform acceleration. It acquires a velocity 20ms^-1 in 4s . The power exerted on the body at 2s is

The initial velocity of a body moving along a straight lines is 7m//s . It has a uniform acceleration of 4 m//s^(2) the distance covered by the body in the 5^(th) second of its motion is-

If v is the velocity of a body moving along x-axis, then acceleration of body 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 .

Velocity of a body moving a straight line with uniform acceleration (a) reduces by (3)/(4) of its initial velocity in time t_(0) . The total time of motion of the body till its velocity becomes zero is

A particle moving with uniform acceleration has its final velocity (v=sqrt(150+8x)) m/s where x is the distance travelled by the body. Then the acceleration is

A particle is moving along the x-axis with an acceleration a = 2x where a is in ms^(–2) and x is in metre. If the particle starts from rest at x=1 m, find its velocity when it reaches the position x = 3.

A body of mass 2kg starts from rest and moves with uniform acceleration. It acquires a velocity 20ms^-1 in 4s . Find average power transferred to the body in first 2s .

For a body travelling with uniform acceleration, its final velocity is v=sqrt(180-7x) , where x is the distance travelled by the body. Then the acceleration is

The acceleration of a particle which moves along the positive x-axis varies with its position as shown in figure. If the velocity of the particle is 0.8 ms^(-1) at x = 0, then velocity of the particle at x = 1.4 m is (in ms^(-1)) .