Water is filled up to a height h in a beaker of radius R as shown in the figure. The density of water is `rho,` the surface tension of water is T and the atmospheric pressure is `P_0.` Consider a vertical section ABCD of the water column through a diameter of the beaker. The force on water on one side of this section by water on the other side of this section has magnitude

Water is filled up to a height h in a beaker of radiys R as shown in the figure. The density of water is rho , the surface tension of water is T and the atmospheric pressure is P_(0) . Consider a vertical section ABCD of the water column through a diameter of the beaker. The force on water on one side on this section by water on the other side of this section has magnitude

Water is filled up to a height h in a beaker of radius R as shown in the figure. The density of water is rho , the surface tension of water is T and the atmospheric presure is p_(0) . Consider a vertical section ABCD of the water on one side of this section by water on the other side of this section has magnitude (a) |2p_(0)Rh+pi R^(2)rho gh-2 RT| (b) |2p_(0)Rh+R rho gh^(2)=2RT| (c ) |p_(0)(pi) R^(2)+R rho gh^(2)-2RT| (d) |p_(0)pi R^(2)+R rho gh^(2)+2RT| .

Water rises upto a height h in a capillary tube of radius r. What is the network done in this process if the density of water is rho ?

A small air bubble of radius 'r' is at a depth 'h' below the water surface (density of water = rho) . Surface tension of water is T, atmospheric pressure is p_(0) . Find pressure inside the air bubble for the condition r lt lt h

Water is kept in a beaker of radius 5.0 cm. Consider a diameter of the beaker on the surface of the water. Find the fore by which the surface on one side of the diameter pulls the surface on the other side. Surface tension of water =0.075Nm^-1 .

One end of a glass capillary tube with a radius r is immersed into water to a depth of h The surface tension of water is s and atmospheric pressure is p_0 . What pressure is required to blow an air bubble out of the lower end of the tube? Density of water is rho

A narrow tube of length l and radius r is sealed at one end. Its open end is brought in contact with the surface of water while the tube is held vertical. The water rises to a height h in the tube. The contact angle of water with the tube wall is theta , density of water is rho and the atmospheric pressure is P_(o) . Find the surface tension of the liquid. Assume that the temperature of air inside the tube remains constant and the volume of the meniscus is negligible.

A liquid is kept in a beaker of radius 4 cm. Consider a diameter of the beaker on the surface of the water. Find the force by which the surface on one side of the diameter pulls the surface on the other side. Surface tension of liquid =0.075 Nm^(-1)

Surface tension of water is 0.072 Nm^(-1) . The excess pressure inside a water drop of diameter 1.2 mm is :-