A lead shot of a 1mm diameter falls through a long column of glycerine.The variation of its velocity `v` with distance covered is represented by,

A spherical ball of iron of radius 2 mm is falling through a column of glycerine. If densities of glycerine and iron are respectively 1.3 xx 103 "kg/m"^(3)" and" 8 xx 103 "kg/m"^(3) . eta for glycerine = 0.83 "Nm"^(–2) sec, then the terminal velocity

find the terminal velocity of a steel ball 2mm in diameter falling through glycerine. Relative density of steel =8, relative density of glycerine =1.3 and viscosity of glycerine=8.3 poise.

A ball bearing of radius of 3mm made of iron of density 7.85g cm^(-3) is allowed to fall through a long column of glycerine of density 1.25gcm^(-3) . It is found to attain a terminal velocity of 2.20cms^(-1) . Determine the viscosity of glycerine in centipoise. ( Take g=10m//s^(2))

A spherical steel ball released at the top of along column of glycerin of length l falls through a distance l//2 with accelerated motion and the remaining distance l//2 with uniform velocity let t_(1) and t_(2) denote the times taken to cover the first and second half and w_(1) and w_(2) are the work done against gravity in the two halves, then compare times and work done.

A ball bearing of radius 1.5 mm mode of iron of density 7.85 g cm^(-3) is allowed to fall through a long columu of glycerice of density 1.25 g cm ^(-3) lt is found to attain a terminal velocity of 2.25 cms^(-1) .Determine the viscosity of glycerine in centipoise .

For a body moving with uniform acceleration along straight line, the variation of its velocity (v) with position (x) is best represented by

A body freely falling from the rest has velocity v after it falls through a height h the distance it has to fall down for its velocity to become double is