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 is the difference of pressure between the inside and outside of a spherical drop of water of radius 1mm? Surface tension of water = 7.2 xx 10^(-2)Nm^(-1)

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

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 a soap bubble of radius R is (S is the surface tension)

What should be the radius of a water drop so that the excess pressure inside it is 0.2 atm? Surface tension of water is 72 xx 10^(-3) N//m ?

A capillary tube of inside diameter 1mm is dipped vertically into water, so that the length of its part protruding over the water surface is 20mm.What is the radius of curvatur of the meniscus ? Surface tension of water is 72 xx 10^(-3) N//m .

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

A vertical capillary tube with inside radius 0.25 mm is submerged into water so that the length of its part protruding over the water surface is equal to 25 mm . Surface tension of water is 73 xx 10^(-3) N/m and angle of contact is zero degree for glass and water , acceleration due to gravity 9.8 m/s^2. Then choose correct statement . where R is radius of menisus and h is height of water in capillary tube .

What is the excess pressure inside a bubble of soap solution of radius 5.00mm, given that the surface tension of soap solution at the temperature (20^(@)C) is 2.50xx10^(-2)Nm^(-1) ? If an air bubble of the same dimension were formed at a depth of 40.0 cm inside a container containing the soap solution (of relative density 1.20), what would be the pressure inside the bubble? (1atm. is 1.01 xx 10^(5)Pa ).

What is the pressure inside a drop of mercury of radius 3.0mm at room temperature? Surface tension of mercury at that temperature (20^(@)C) is 4.65xx10^(-1)Nm^(-1) . The atmospheric pressure is 1.01xx10^(5)Pa . Also give the excess pressure inside the drop.