Calculate the work done in spraying a spherical drop of mercury of 1 mm radius into a million droplets of equal size. The surface tension of mercury `=550 xx10^(-3) Nm^(-1)`

Calculate the energy spent in sprying a drop of mercury of 1 cm radius into 10^6 droplets of same size.[ surface tension of mercury is 35xx10^-3 Nm^-1 ]

Calculate the work done in breaking a mercury drop of radius 1mm into one thousand droplets of the same size. Surface tension of mercury is 525 xx 10^-3 N//m .

Find the work done in spraying a drop of water of 2mm diameter into a million droplets all of the same size. Surafce tension of water is 72 dyne cm^(-1) .

Calculate the work done when a spherical drop of mercury of radius 1 mm falls from some height and breaks into 27droplets.each of the the same size. The surface tension of mermcury is T= 0.47 N/m.

The amount of work performed to break a spherical drop of radius 1 mm into million drops of equal radius , is

Work done is splitting a drop of water of 1 mm radius into 64 droplets is (surface tension of water =72xx10^(-3)j m^(2))

A menisus drop of radius 1 cm sprayed into 10^(5) droplets of equal size . Calculate the energy expended if surface tension of mercury is 435 xx10^(-3) N/m

A menisus drop of radius 1 cm sprayed into 10^(5) droplets of equal size . Calculate the energy expended if surface tension of mercury is 435 xx10^(-3) N/m

Work done in splitting a drop of water of 1 mm radius into 10^6 droplets is (Surface tension of water= 72xx10^(-3)J//m^(2) )