The terminal velocity `v` of a spherical ball of lead of radius R falling through a viscous liquid varies with R such that

The terminal velocity of small sized spherical body of radius r falling veertically in a viscous liquid is given by a following proportionality

The terminal velocity of a sphere of radius R, falling in a viscous fluid, is proportional to

After terminal velocity is reached the acceleration of a body falling through a viscous fluid is:

After terminal velocity is reached the acceleration of a body falling through a viscous fluid is:

Terminal velocity (V) of a spherical object varies with a radius of object (r) -

The terminal velocity of a sphere moving through a viscous medium is :

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

A spherical metal ball of mass m and radius (r ) is falling through a viscous medium. The value of its terminal velocity is proportional to

A small spherical ball falling through a viscous medium of negligible density has terminal velocity v. Another ball of the same mass but of radius twice that of the earlier falling through the same viscous medium will have terminal velocity

A steel ball of mass m falls in a viscous liquid with terminal velocity v, then the steel ball of mass 8m will fall in the same liquid with terminal velocity