The initial velocity of a particle is u and the accelertion at time t later is given by at, then its velocity is given by-

The initial velocity of a particle is u (at t =0) and the acceleration f is given by at. Which of the relation is valid

(a) If the initial velocity of a particle is u and collinear acceleration at any time t is at, calculate the velocity of the particle after time t . (b) A particle moves along a straight line such that its displacement at any time t is given by s = (t^(3) - 6 t^(2) + 3t + 4)m . What is the velocity of the particle when its acceleration is zero?

The initial velocity of a particle is u and the acceleration is given by (kt), where k is a positive constant. The distance travelled in time t is:

If the initial velocity of aparticle is (u) collinera acceleration at any time (t) is at, calculate the velocity of the paraticle after time (t).

The initial velocity of the projectile is u and its maximum range is R_max then u is given by

The initial velocity of a particle is u (at t = 0) and the acceleration f is given by f = at. Which of the following relation is valid?

The initial velocity of a particle is u (at t = 0) and the acceleration f is given by f = alphat . Which of the following relation is valid?

The initial velocity of a particle is u (at t = 0) and the acceleration f is given by f = at. Which of the following relation is valid?

The initial velocity given to a particle is u and accelration is given by a=at^((3)/(2)) . What will be the velocity of particle after time t.

The initial velocity of a particle- is u and acceleration (f) is uniform. Final velocity and distance covered in the interval t are v and s respectively. Show that the velocity of the particle at half - distance is more than the velocity for half-time.