A capillary tube, made of glass is dipped into mercury. Then

When glass capillary tube of radius 0.4 mm is dipped into mercury, the level inside the capillary stands 1.24 cm lower than that outside. Calculate the surface tension of mercury. (Angle of contact of mercury with glass = 135^@ , g = 9.8 m//s^2 , density of mercury = 13.6 xx 10^3 kg//m^3 )

If a capillary tube made up of silver is dipped in water . It is found that there in no rise or fall of water in the tube . This shows that the angle of contact is

The contact angle between pure water and pure sliver is 90^@ If a capillary tube made of silver is dipped at one end in pure water, will the water rise in the capillary?

The contact angle between pure water and pure sliver is 90^@ If a capillary tube made of silver is dipped at one end in pure water, will the water rise in the capillary?

The contact angle between pure water and pure sliver is 90^@ If a capillary tube made of silver is dipped at one end in pure water, will the water rise in the capillary?

A narrow tube of radius 1.0 mm made of glass is dipped in mercury. By what amont does the mercury dip down in the tube relative to the mercury surface outside?

The figure shows a capillary tube of radius r dipped into water. The atmospheric pressure is p_0 and the capillary rise of water is h. the surface tension for water-glass is s Initially, h = 10cm. If the capillary tube is now inclined at 45^@ , the length of water rising in the tube will be

Figure shows a capillary tube of radius r dipped into The atmospheric pressure is P_(0) and the capillary rise of water is h . s is the surface tension for water-glass. Initially, h = 10 cm . If the capillary tube is now incline at 45^@, the length of water rising in the tube will be

Figure shows a capillary tube of radius r dipped into The atmospheric pressure is P_(0) and the capillary rise of water is h . s is the surface tension for water-glass. Initially, h = 10 cm . If the capillary tube is now incline at 45^@, the length of water rising in the tube will be