The velocity of a particle performing motion with uniform acceleration on a linear path, at position 'x' is 'v' and `v = sqrt (196-16x),` where x is in metre. What would be the acceleration of this particle? Take initial velocity of particle = 14 `m s^(-1)`

Starting from rest, the acceleration of a particle is a=2(t-1) . The velocity of the particle at t=5s is :-

The velocity of a particle moving in the positive direction of the x axis varies as v=5sqrtx , assuming that at the moment t=0 the particle was located at the point x=0 , find acceleration of the particle.

The x-t graph of a particle undergoing simple harmonic motion is shown in figure. Acceleration of particle at t = 4//3 s is

A particle performs simple harmonic motion with speed v and acceleration a. Which of following statement is true ?

The motion of a particle along a straight line is described by equation : x = 8 + 12 t - t^3 where x is in metre and t in second. The retardation of the particle when its velocity becomes zero is.

The velocity of a particle moving along x-axis is given as v=x^(2)-5x+4 (in m // s) where x denotes the x-coordinate of the particle in metres. Find the magnitude of acceleration of the particle when the velocity of particle is zero?

The relation between position and time f for a particle , performing one dimensional motion is as under : t = sqrt(x) +3 Here x is in metre and t is in second . (1) Find the displacement of the particle when its velocity becomes zero . (2) If a constant force acts on the particle , find the work done in first 6 second .

A particle starts from rest with uniform acceleration a . Its velocity after 'n' second is 'v'. The displacement of the body in the last two second is

A graph of velocity versus time (v - t) for an object performing motion with uniform acceleration is shown What would be the velocity of the object at time t= 0?