The radii of the two columne is U-tube are `r_(1)` and `r_(2)(gtr_(1))`. When a liquid of density `rho` (angle of contact is `0^@))` is filled in it, the level different of liquid in two arms is h. The surface tension of liquid is
`(g=` acceleration due to gravity)

The radii of two columns in a U tube are r_(1) and r_(2) (r_(1) gt r_(2)) . A liquid of density rho is filled in it. The contact angle of the liquid with the tube wall is theta . If the surface tension of the liquid is T then plot the graph of the level difference (h) of the liquid in the two arms versus contact angle theta . Plot the graph for angle theta changing from 0^(@) to 90^(@) . Assume the curved surface of meniscus to be part of a sphere.

In a U-tube the radii of two columns are respectively r_(1) and r_(2) and if a liquid of density d filled in it has level difference of h then the surface tension of the liquid 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:

A beaker containing a liquid of density rho moves up with an acceleration a . The pressure due to the liquid at a depth h below the free surface of the liquid is.

If h is the rise of water in a capillary tube of radius r, then the work done by the force of surface tension is (rho is density g = ("acc")^(n) due to gravity )

Statement-1: The angle of contact of a liquid decrease with increase in temeperature Statement-2: With increase in temperature the surface tension of liquid increase.

A container having a liquid of density rho is moving downwards with acceleration g/2 . Find the pressure difference between two vertical points in the liquid separated by h

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?

Two holes are made at depths h and 2h from the top. A liquid of density rho and height h is filled over another liquid of density 2rho . Speeds of liquid ejecting from two holes are say v_(1) and v_(2) . If density of lower liquid is increased

The absolute pressure at a depth h below the surface of a liquid of density rho is [Given P_(a) = atmospheric pressure, g = acceleration due to gravity]