A spherical ball is dropped in a long column of a viscous liquid. The speed of the ball as a function of time may be best represented by the graph

A spherical ball is dropped in a long column of viscous liquid. Which of the following graphs represent the variation of (l) gravitational force with time (ii) viscous force with time (iii) net force acting on the ball with time

A spherical ball is dropped in a long column of viscous liquid. Which of the following graphs represents the variation of- (i). Gravitaional force with time (ii). Viscous force with time (iii). Net force acting on the ball with time

A small lead ball is falling freely in a viscous liquid The velocity of the ball

A bar magnet is made to fall through a long vertica! copper tube. The speed (V) of the magnet as a function of time (t) is best represented by

Which one of the following function best represents the graphs as shown below?

A small spherical solid ball is dropped from a great height in a viscous liquid. Its journey in the liquid is best described in the diagram given below by the

A ball is thrown downward In a viscous fluid with speed V. Terminal speed of ball is V_(0)

A small spherical solid ball is dropped in a viscous liquid. It journey in the liquid is best described in the Fig. 15.5.1 by

The speed -time graph of the ball in the above situation is.

A ball is kept at a height h above the surface of a heavy transparent sphere made of a material of refractive index The radius of the sphere is R. At t = 0, the ball is dropped to fall normally on the sphere. Find the speed of the image formed as a function of time for tlt sqrt((2h)/g) . Consider only the image by a single refraction.