The rise of a liquid in a capillary tube is due to :

The rise of a liquid in a capillary tube depends on

What do you mean by capillarity. Derive relation for the rise of liquid in a capillary tube on the basis of balancing force and explain the rise of liquid in a tube of insufficient length.

A liquid of density rho and surface tension sigma rises in a capillary tube of diameter d. Angle of contact between the tube and liquid is zero. The weight of the liquid in the capillary tube is:

A container is partially filled with a liquid of density rho_2 A capillary tube of radius r is vertically inserted in this liquid. Now another liquid of density rho_1(rho_1ltrho_2) is slowly poured in the container to a height h as shown. There is only denser liquid in the capillary tube. The rise of denser liquid in the capillary tube is also h . Assuming zero contact angle, the surface tension of heavier liquid is

The correct curve between the height or depression h of liquid in a capillary tube and its radius is

Statement-1: In gravity free space, the liqid in a capillary tube will rise to infinite height. Statement-2: In the absence of gravity there will be no force to prevent the rise of liquid due to surface tension.

The angle of contact of a liquid in a capillary tube is 60^(@) . The shape of the meniscus is

The liquid in the capillary tube will rise if the angle of contact is

If a capillary tube of radius 1 mm is immersed in water , the mass of water rising in the capillary tube is M . If the radius tube is doubled , then the mass of water , that rises in the capillary tube will be

The rate of flow of liquid through a capillary tube in an experiment to determine the viscosity of the liquid increases