The velocity of a body depends on time according to the equative `v = 20 + 0.1 t^(2)`. The body is undergoing

The velocity fo a body depends on time according to equation, v= 20 + 0.1 t^2 . The body is undergoing.

The velocity of a body depends on time according to the equation v=(t^(2))/(10)+20 . The body is undergoing

The velocity v of the a particle depends upen the time t according to the equation v= a + bt + ( c) /(d+1) Write the dimension of a, b,c and d.

The escape velocity of a body does not depend on the mass of the body.

A particle starts moving rectilinearly at time t = 0 such that its velocity v changes with time t according to the equation v = t^2-t , where t is in seconds and v is in m s^(-1) . The time interval for which the particle retrads (i.e., magnitude of velocity decreases)is

The velocity of a body in rectilinear motion is determined by the formula v = 3t + t^(2) . What acceleration will the body have 4s after the start ?

The velocity v of a body moving along a straight line varies with time t as v=2t^(2)e^(-t) , where v is in m/s and t is in second. The acceleration of body is zero at t =

The displacement of a body along X-axis depends on time as sqrt(x)=t+1 . Then the velocity of body.