A vessel, whose bottom has round holes with diameter of 1mm, is filled with water. Assuming that surface tension acts only at holes, find the maximum height (in cm) to which the water can be filled in the vessel without leakage, given that surface tension of water is `75 xx 10^(-3) ` N/m and g = 10m/`s^2`

What is the excess of pressure inside a spherical drop of water of radius 1mm. Surface tension of water is 70xx10^(-3)N//m .

What should be the radius of capillary tube it the water has to rise to a height of 3 cm in it. Surface tension of water is 7.2xx10^(-2)Nm^(-1) .

The work done in forming a soap film of size 10cmx10cm will be, if the surface tension of soap solution is 3 xx 10^(-2) N/m

A cylindrical vessel with a circular hole of radius 0.2mm in its bottom, is filled with water. If surface tension of water is equal to 70 dyne cm-, density of water is lg cm^(-3) and g is equal to 980 cms-2 then the maximum height to which the vessel can be filled without water flowing out of the hole is 'x' (3.57) cm. Find x

If the diameter of a soap bubble is 10 mm and its surface tension is 0.4 N/m, find the excess pressure inside the bubble.