The weight of liquid column in a capillary tube is `11xx10^(-4)N`. If the radius of tube is 7 mm, calculate the surface tension of liquid.

The rise of a liquid in a capillary tube depends on

The rise of a liquid in a capillary tube is due to :

The angle of contact of a liquid in a capillary tube is 60^(@) . The shape of the meniscus is

A barometer contains two uniform capillaries of radii 1.4xx10^(-3)m and 7.2xx10^(-4)m . If the height of liquid in narrow tube is 0.2m more than that in wide tube, calculate the true pressure difference. Density of liquid =10^(3)kg//m^(3) , surface tension =72xx10^(-3)N//m and g=9.8ms^(-12) .

A barometer contains two uniform capillries of radii 1.44 xx 10^(-3)m and 7.2 xx 10^(-4)m . If the height of the liquid in the narrow tube is 0.2 m more than that in the wide tube, calculate the true pressure difference. Density of liquid = 10^(3) kg//m^(3) , surface tension = 72 xx 10^(-3) N//m and g = m//s^(2) .

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:

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

If a capillary tube of radius 1 mm is immersed in water , the mass of water rising in the capillary tube is M . If the radius tube is doubled , then the mass of water , that rises in the capillary tube will be

Motion of an oscillating liquid column in a U-tube is

Motion of an oscillating liquid column in a U-tube is