A body is initially at rest. It undergoes one dimensional motion with constant acceleration. The power delivered to it at time t is proportional to

Projectile motion is a two dimensional motion with constant acceleration. Is this statement true or false?

A body initially at rest travels a distance 100 m in 5 s with a constant acceleration. Calculate : (i) the acceleration, and (ii) the final velocity at the end of 5 S.

A body starts from rest and acquires velocity V in time T . The instantaneous power delivered to the body in time 't' proportional to

For the one dimensional motion, described by x=t-sint

A body, initially at rest, starts moving with a constant acceleration 2 ms^(-2) . Calculate : (i) the velocity acquired and (ii) the distance travelled in 5 s.

A particle starting from rest undergoes a rectilinear motion with acceleration a. The variation of a with time t is shown below. The maximum velocity attained by the particle during its motion is

Assertion : Simple harmonic motion is an example on one dimensional motion with non-uniform acceleration . Reason : In simple harmonic motion, acceleration varies with displacement linearly.

An insect of mass m moves up along a hanging stationary thread, with acceleration a. Find the power delivered by the gravity after a time t.

A variable force F acts on a body which is free to move. The displacement of the body is proportional to t^(3) , where t = time. The power delivered by F to the body will be proportional to

A body is thrown with a velocity v_0 at an angle theta_0 with horizontal. Find the (a) instantaneous power delivered by gravity after a time t measured from the instant of projection and (b) average power delivered by gravity during the time t.