The viscous drag on a spherical body moving with a speed v is proportional to

The viscous force acting on a solid ball of surface area. A moving with terminal velocity v is proportional to

If a body is moving with constant speed, then its acceleration

If the velocity of a body moving in a straight line is proportional to the square root of the distance traversed, then it moves with

The distance travelled by a body moving along a line in time t is proportional to t^3 . The acceleration - time (a, t) graph for the motion of the body will be

The work done to get 'n' smaller equal size spherical drop from a bigger size spherical drop of water is proportional to

If linear speed of a particle moving in a circular path is constant then,angular speed is proportional to (r is radius of circle)

(A) : When external force acting on a body moving on a rough horizontal surface is doubled, the acceleration of the body is doubled. (R ) : The acceleration of a body moving on a rough horizontal surface is proportional to the resultant force acting on it.

Viscous drag force depends on

Viscous drag force depends on

What is Stoke.s law ? Define terminal velocity and calculate it for a spherical body moving vertically in a liquid and show that it is proportional to square of the radius of the spherical body.