An object is subjected to an acceleration `a = 4 + 3v`. It is given that the displacement `S = 0` when `v = 0`. The value of displacement when `v = 3 m//s` is

The acceleration of a particle is given by a = 3t and at t = 0, v = 0, x = 0. The velocity and displacement at t = 2 sec will be-

The acceleration of a particle is given by, a = t/6 at t = 0, velocity v = 2 m/s, displacement s= 2m. Find the velocity at t= 4 seconds,

The acceleration of a particle depends on displacement covered in a time as a = s + 5 . It is given that initially s = 0 and v = 5 m//s , then which of the following is possibly correct ?

For a simple harmonic oscillator, the aceeleration is 3 m//s^(2) when the displacement is 0.03 m. The angular frequency of the oscillator is

The acceleration a of alpha of a particle depends on displacements covered in a time t as a= S + 5 . It is given that initially S=0 m and v=5m//s . Then

A particle is moving in a straight line and its velocity varies with its displacement as v=sqrt(4+4s) m/s. Assume s=0 at t=0. find the displacement of the particle in metres at t=1s.

For motion of an object along the x-axis the velocity v dipends on the displacement x an v=3x^(2) , then what is the acceleration at x=2 m .

For motion of an object along the x-axis the velocity v dipends on the displacement x an v=3x^(2) , then what is the acceleration at x=2 m .

A particle moves along the x-direction with constant acceleration. The displacement, measured from a convenient position, is 2 m at time t= 0 and is zero when t= 10 s. If the velocity of the particle is momentary zero when t = 6 s, determine the acceleration a and the velocity v when t= 10s.