The equation of displacement for a body at time t is given by x = `alphat^3 + betat^2 + gammat + delta`. It’s depend upon--

The equation of displacement of a particle along the X-axis is x = 40 + 12t- t^3 . How much distance does it travel before stop?

The equation of displacement of a particle along the X-axis is x = 40 + 12t - t^(3) . How much distance does it travel before stop?

The equation of displacement of a particle along the X axis is x = 40 + 12t- t^3 . How much distance-does-it travel before stop?

A particle moves along X-axis and its displacement at any time is given by x(t) = 2t^(3) -3t^(2) + 4t in SI units. The velocity of the particle when its acceleration is zero, is

The relation between displacement & time is given by — y = -(2/3) t^2 + 16t + 2 . After how many seconds the body will be at rest?

A particle is moving with uniform acceleration.its displacement at any instant t is given by S= 10t+4.9t^2 . What is its Initial velocity

Displacement equation for a particle moving in a straight line is x = at^(3)+betat^(2)+gammat+delta . The ratio of the initial acceleration to the initial velocity depends only on _____ .[ Fill in the blank]

The displacement of a particle along x-axis is given by x = 3 + 8t-2t^(2) . What is its acceleration? At what time it will come into rest ? All are in SI units.