A car is moving with an intial velocity `2v_(@)`. It increase its velocity to `4V_(@)` 't' seconds . The realation which decribes the distance covered on t seconds ( consderiong uniformly accelaerated motion ) is

A particle moves with an initial velocity v_(0) and retardation alpha v , where v is the velocity at any time t.

An electron starting from rest has a velocity that increase linearly with time that is v=k t, wher k=2 m//s^(@) . What will be the distance covered in first 3 seconds of its motion ?

In n^(th) second of the motion, the distance moved by the body is three times the distance moved in the previous second. The motion is uniformly accelerated and the initial velocity was zero. Find n.

A body travels with velocity v_(1) for time t_(1) second and with velocity v_(2) for time t_(2) second in the same direction, fide the avetage velocity of the body.

A car is moving with velocity vec v_(c) towards north and a train is moving towards east with velocity vec v_(t) . Find the direction of relative velocity of car with respect to train.

A particle moves with an initial velocity V_(0) and retardation alpha v , where alpha is a constant and v is the velocity at any time t. total distance covered by the particle is

A bird flies for 4s with a velocity V=(t-2) m//s in a straight line where t= time in second Calculate the displacement and distance covered by the bird

A car moves in a straight line, the car accelerates from rest with a constant acceleraation alpha on a straight foad. After gaining a velocity v , the car moves with that velocity for somerime. Then car decelerates with a retardation beta , If the total distance covered by the car is equal to s find the total time of its motion.

A locomotive of mass m starts moving so that its velocity varies according to the law v=asqrts , where a is a constant, and s is the distance covered. Find the total work performed by all the forces which are acting on the locomotive during the first t seconds after the beginning of motion.