The relation between velocity and time of body is given `v=A+B/t+Ct^2`
the units of A, B and C will be

The relation between displacement & time of a body is S = (2t^3- 4t^2 + 3t) unit What will be the acceleration after 3s?

The relation between velocity (v) of sound, wavelength (lamda) and frequency (n) 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?

The relation between the time taken and the displacement of a moving body is s = 2t - 3t^(2) + 4t^(3) , where the unit of s is in metre and that of t is in second. Find out the displacement, velocity and acceleration of the body 2s after initiation of the journey.

The velocity V of a particle at time t is given by V = at + b/(t+c) . The dimensions of a, b and c are respectively--------.

The velocity of a particle in time t is v = at + (b)/(t+c) . The dimension of a, b and c are

For a moving particle the relation between the distance (S) and time (t) is S = a+bt + ct^(2)+dt^(3) , which one among a,b,c and d will represent the dimension of acceleration ?

The relation between the displaement x and the time t for a body of mass 2 kg moving under the action of a force is given by x=t^3//3 , where x is in metre and t in second . Calculate the work done by the body in the first 2 seconds .

The velocity of a particle (v) at an instant 't' is given by v = at + bt^(2) , the dimension of b is

Which of the following diagram correctly shows the relation between the terminal velocity V_(T) of a spherical body falling in a liquid and viscosity eta of the liquid ?