The excess pressure inside a spherical drop of water is four times that of another drop. Then their respective mass ratio is ` 1 : x ` find x,

The excess pressure inside a liquid drop of water will be maximum for the one having radius

Excess pressure inside one soap bubble is four times that of other. Then the ratio of volume of first bubble to second one is

The excess pressure inside one soap bubble is three times that inside a second soap bubble, then the ratio of their surface area is:

Find the excess pressure inside a liquid drop of radius 2 cm, if the surface tension of water is 0.073 N m^(-1)

The excess pressure due to surface tension in a spherical liquid drop of radius r is directly proportional to

The excess pressure due to surface tension inside a spherical drop is 6 units . If eight such drops combine, then the excess pressure due to surface tension inside the larger drop is

Find the excess pressure inside a mercury drop of radius 2.0 mm. The surface tension of mercury 0.464Nm^-1 .

The excess pressure inside an air bubble of radius r just below the surface of water is P_(1) . The excess pressure inside a drop of the same radius just outside the surface is P_(2) . If T is surface tension then

Find the derivative of e^x.x with respect to x

What is the excess pressure inside (i) a drop (ii) a bubble of water of diameter 2mm. If the atmospheric pressure is 1.01 xx 10^(5) Pa, calculate the total pressure inside them = sigma = 72 xx 10^(-3) N//m .