A particle located at position x=0, at time t=0, starts moving along the positive x-direction with a velocity `v^2=alpha x` (where alpha is a positive constant). The displacement of particle is proportional to

A particle located at x = 0 at time t = 0 , starts moving along with the positive x-direction with a velocity 'v' that varies as v = a sqrt(x) . The displacement of the particle varies with time as

A particle located at x = 0 at time t = 0, starts moving along the positive x-direction with a velocity that varies as v=psqrtx . The displacement of the particle varies with time as (where, p is constant)

A particle located at "x=0" at time "t=0" starts moving along the positive "x" - direction with a velocity "v" that varies as "v=alpha sqrt(x)".The displacement "(x)" of the particle varies with time as "(alpha" is constant)

The dispkacement of particle is zero at t= 0 and it is x , at t-t . It starts moving in the positive x-direction with a velocity which varices as v= k sqrt x , where (k) is a constant. Show that velocity is directly proprtional to time.

The displacement to particle is zero at t=0 and is z at t= t . It starts moving in the positive x-direction with a velocity which varies, v= k sqrt x , wher (k) is a constant. Find the relation for variation of velocity with time.

The velocity of a particle moving in the positive direction of the X-axis varies as V=Ksqrt(S) where K is a positive constant. Draw V-t graph.

The velocity of a particle moving in the positive direction of the x axis varies as v=alphasqrtx , where alpha is a positive constant. Assuming that at the moment t=0 the particle was located at the point x=0 , find: (a) the time dependence of the velocity and the acceleration of the particle, (b) the mean velocity of the particle averaged over the time that the particle takes to cover the first s metres of the path.

A particle of unit mass is moving along x-axis. The velocity of particle varies with position x as v(x). =alphax^-beta (where alpha and beta are positive constants and x>0 ). The acceleration of the particle as a function of x is given as

A particle having a velocity v = v_0 at t= 0 is decelerated at the rate |a| = alpha sqrtv , where alpha is a positive constant.

The position x of particle moving along x-axis varies with time t as x=Asin(omegat) where A and omega are positive constants. The acceleration a of particle varies with its position (x) as