A particle starts from point A moves along a straight line path with an acceleration given by a = p - qx where p, q are connected and x is distance from point A . The particle stops at point B. The maximum velocity of the particle is

A particle starts from point A , moves along a straight line path with an accleration given by a = 2 (4 - x) where x is distance from point A . The particle stops at point B for a moment. Find the distance AB (in m ). (All values are in S.I. units)

A particle starts from rest at t=0 and moves in a straight line with an acceleration as shown below. The velocity of the particle at t=3 s is

A particle starts from origin and moves on a straight line path with an acceleration proportional to square of its displacement.Kinetic energy during displacement x will be

A particle starting from rest moves along a straight line with constant acceleration for this velocity displacement graph will have the form-

A particle starts moving in a straight line from rest with an acceleration ("in"m//s^(2) ) given by : a=12 sqrt x , where x is the distance travelled by the particle (in meters ) The velocity of the particle at the instant when its acceleration is 48m//s ^(2) is .......m//s

A particle starts from rest at time t=0 and moves on a straight line with acceleration as plotted in fig. The speed of the particle will be maximum after time.

A particle is moving with a constant speed along a straight line path. A force is not required to

A particle starts from rest and moves with constant acceleration. Then velocity displacement curve is:

A particle moving along a straight line with uniform acceleration has velocities 7 m//s at A and 17 m//s at C. B is the mid point of AC. Then :-

A particle starting from rest moves in a straight line with acceleration as shown in the a-t graph. Find the distance (in m) travelled by the particle in the first four seconds from start of its motion. Q