A capillary tube of radius 0.6 mm is dipped vertically in a liquid of surface tension `0.04 Nm^(-1) `and relative density 0.8 . Calculate the height of capillary rise if the angle of contact is `15^(@)`.

A capillary tube of inside diameter 1 mm is dipped vertically in a liquid of surface tension 63 xx 10^(-3) N//m and density 1262 (kg)/m^(3) . Find the height of the capillary rise if the angle of contact is 10^(@) .

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

A liquid rises in a capillary tube when the angle of contact is:

Lower end of a capillary tube of radius 10^(-3) m is dipped vertically into a liquid. Surface tension of liquid is 0.5 N/m and specific gravity of liquid is 5. Contact angle between liquid and material of capillary tube is 120^(@) . Choose the correct options (use g = 10m/ s^(2) )

A capillary tube made of glass of radius 0.15 mm is dipped vertically in a beaker filled with methylene iodide (surface tension = 0.05 "Nm"^(-1) density = 667 kg m^(-3) ) which rises to height h in the tube. It is observed that the two tangents drawn from liquid-glass interfaces (from opp. sides of the capillary) make an angle of 60^(@) with one another. Then h is close to ( g = 10 "ms"^(-2))

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

A capillary tube of radius 1 mm is kept vertical with the lower end in water. (a) Find the height of water raised in the capillary. (b) If the length of the capillary tube is half the answer of part (a), find the angle theta made by the water surface in the capillary with the wall.

A capillary tube with inner cross-section in the form of a square of side a is dipped vertically in a liquid of density rho and surface tension rho which wet the surface of capillary tube with angle of contact theta . The approximate height to which liquid will be raised in the tube is : (Neglect the effect of surface tension at the corners of capillary tube)

When a capillary tube of radius 2.8xx10^(-4)m is dipped vertically in alcohol , alcohol rises by 0.02m above the outer level. Calculate the surface tension of alcohol, given density of alcohol is 790 kg-m^(-3) .

A capillary tube of radius r is lowered into a liquid of surface tension T and density rho . Given angle of contact =0^(@) . What is the potential energy acquired by the liquid in the capillary?