A particle moves in a straight line so that `s=sqrt(t)`, then its acceleration is proportional to

If a particle moving along a line follows the law s= sqrt (1+t) then the acceleration is proportional to....... A) square of the velocity B) cube of the displacement C) cube of the velocity D) a constant

If the law of motion in a straight line is s=(1)/(2)vt , then acceleration is: a)a constant b)proportional to t c)proportional to v d)proportional to s

A particle moves in a straight line in such a way that its velocity at any point is given by v^2=2-3x , where x is measured from a fixed point. The acceleration is

A particle is moving on a circular path with constant speed, then its acceleration will be

A particle is moving in a straight line according as s=45t+11t^2-t^3 then the time when it come to rest is: a) -9 seconds b) 5/3 seconds c) 9 seconds d) -5/3 seconds

A particle is moving in a vertical circle. Its

A particle is moving in a striaght line according as S=15t+6t^2-t^3 , then the time it will come to rest is

Solve the following examples: (numerical problems) A body moves in a straight line with a uniform acceleration. If the initial velocity of the body is 5 m/s and the velocity after 10 s is 15 m/s, find the acceleration of the body and

The equation of motion of a particle moving along a straight line is s=2t^(3)-9t^(2)+12t , where the units of s and t are cm and second. The acceleration of the particle will be zero after: a) 3/2 seconds b) 2/3 seconds c) 1/2 seconds d) 2 seconds

A body starting from rest at t=0 moves along a straight line with a constant acceleration. At t= 2s , the body reverses its direction keeping the acceleration same. The body returns to the initial position at t=t_0 , then t_0 is