A glass capillary sealed at the upper end is of length `0.11 m` an internal diameter `2xx10^(5)`m. The tube is immersed vertically into a liquid of surface tension `5.06xx10^(-N)//m`. To what length the capillary has to be immersed so that the liquid level inside and outside the capalliary becomes the same. What will happen to water level inside the capillary if the seal is now broken?

A galss capillary length l=11 cm and inside diameter d=20mum is submerged vertically into water. The upper end of the capillary is sealed. The outside pressure is considered to be 1xx10^(5)(N)/(m^(2)) . To what length has the capillary to be submerged to make the water levels inside and outside the capillary coincide?

A glass capillary of length l and inside radius r(r lt lt l) is submerged vertically into water. The upper end of the capillary is scaled. The atmospheric pressure is p_(0) . To what length h has the capillary to be submerged to make the water levels inside and outside the capillary coincide. Assume that temperature of air in the capillary remains constant. (given, surface tension of water = T, angle of contact between glass water interface = 0^(@) )

A capillary tube of internal radius 2 xx 10^(-3) m immersed vertically in beaker containing a liquid rising in the capillary tube is 9 xx 10^(5) kg , the surface tension of the liquid is

The capillary rises are found to be in the ration of 3:2 when two capillary tubes are immersed in water of surface tension 7.2xx 10^(-2) N/m . The ratio of the bore diameters of the capillary tubes is

If a capillary tube of radius 2 xx 10^(-4) m is is dipped vertically in a water of surface tension 7 xx 10^(-2) N/m and density 10^(3) "kg/m"^(3) then the height to which water rises will be

A capillary tube whose inside radius is 0.6 mm is dipped in water in a bucket of surface tension 75 dyn e cm^(-1) To what height is the water raised in the capillary tube above the level water in bucket ? What is the weight of water raised ?

A glass capillary tube sealed at the upper end has internal radius r . The tube is held vertical with its lower end touching the surface of water. Calculate the length (L) of such a tube for water in it to rise to a height h (lt L) . Atmospheric pressure is P_(o) and surface tension of water is T. Assume that water perfectly wets glass (Density of water = rho )

A capillary tube is placed vertically inside the beaker of water of surface tension 7 xx 10^(-2) N/m and the angle of contact is 0^(@) . The height raised by the water in capillary tube 7 xx 10^(-2) m The radius of the capillary tube is

Radius of a capillary is 2xx10^(-3)m . A liquid of weight 6.28xx10^(-4)N may remain in the capillary, then the surface tension of liquid will be: