For different capillaries of radiusr,the condition of liquid rise (h) above the liquid surface is

When two capillary tubes of different diameters are dipped vertically in a liquid , the rise of the liquid in the capillary tube

A liquid rises in a capillary tube of radius r upto height h and tha mass of liquid is 20 gm . If a the radius of capillary tube is half and height is twice , then the new mass of a liquid will be ,

When a capillary tube of radius r is immersed in a liquid of density rho, the liquid rises to a height h in it. If m is the mass of the liquid in the capillary tube, find the potential energy of this mass of the liquid in the tube.

Due to capillary action, a liquid will rise in a tube, if the angle of contact 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

Water rises in a capillary tube through a height l . If the tube is inclined to the liquid surface at 30^(@) the liquid will rise in the tube upto it's length equal to

Due to capillary action, a liquid will rise in the capillary tube if the angle of contact is

A capillary of the shape as shown is dipped in a liquid. Contact angle between the liquid and the capillary is 0^@ and effect of liquid inside the mexiscus is to be neglected. T is surface tension of the liquid, r is radius of the meniscus, g is acceleration due to gravity and rho is density of the liquid then height h in equilibrium is: