A liquid rises to a height of 60 mm capillary tube of diameter 0.04 mm. If the density of that liquid is `0.8xx10^(3)Kgm^(-3)`, and angle of contact is `20^(@)`, find the surface tension of that liquid.

A liquid rises to a height of 50 cm in a capillary tube of diameter 0.04mm. If density of liquid is 0.08 xx 10^3 kg m^(-3) angle of contact is 20°, the surface tension of the liquid is (cos 20^@ = 0.94)

Find the depression of mensicus in the when a capillary tube of diameter 0.2 mm is dipped in a beaker containg mercury. density of mercury is 13.6xx10^(-3)Kgm^(-3) , angle of contact is 130^(@) surface tension of mercury is 0.49Nm^(-1),g=9.8ms^(-2) .

Water rises to a height of 10cm in a capillary tube and mercury falls to a depth of 3.42 cm in the same capillary tube. If the density of mercury is 13.6gm/cc and the angle of contact is 135^@ . Find ratio of surface tensions of water and mercury

Find the height to which the water rise when a capillary tube of radius 0.24 mm is dipped vertically in a beaker containing water. Surface tension of water is 7.0xx10^(-2)Nm^(-1) , angle of contact is 0^(@) and density of water is 1000Kgm^(-3) .