A open U- tube contains mercury. When 11.2 cm of water is poured into one of the arms of the tube, to how much height does the mercury rise in the other arm from its initial level?

A vertical U-tube of uniform inner cross section contains mercury in both sides of its arms. A glycerin (density =1.3 g//cm ^(3)) column of length 10 cm is introduced into one of its arms. Oil of density 0.8 gm //cm^(3) is poured into the other arm until the upper surfaces of the oil and glycerin are in the same horizontal level. Find the length of the same horizontal level. Find the length of the oil column, Density of mercury =13.6 g//cm^(3)

A U-tube in which the croos - sectional area of the limb on the left is one quarter that of the limb on the right contains mercury (density 13.6 g//cm^3 ) The level of mercury in the narrow limb is at a distance of 36 cm form the upper end of the tube. What will be the rise in the level of mercury in the right limb if filled to the top with water?

A verticle U-tube of uniform inner cross section contains mercury in both sides of its arms. A glycerine (density =1.3g//cm^3) column of length 10 cm is introduced into one of its arms. Oil of density 0.8 gm//cm^3 is poured into the other arm until the upper surfaces of the oil and glycerine are at the same horizontal level. Find the length of the oil column, density of mercury =13.6 g//cm^3

A U-tube with both ends open to the atmosphere is partially filled with water. Oil, which is immiscible with water. Is poured into one side until it stands at a distance of 10 mm above the water level on the other side. Meanwhile the water rises by 65mm from its original level (see diagram). The density of the oil is:

Two communicating vessels contain mercury. The diameter of one vessel is n times larger than the diameter of the other. A column of water of height h is poured into the left vessel (s=relate density of mercury and rho_1= density of water ) by

A capillary tube of radius 0.02 cm is dipped vertically in a beaker containing mercury. The level of mercury in the tube with respect to the mercury level in the beaker will be (Given density of mercury 13.5 g//cc, Surface tension 540 dyne/cm and the angle of contact 135^@ )

A source of frequncy 340 Hz is kept above vertical cylindrical tube closed at lower end. The length of the tube is 120 cm. Water is slowly poured in just enough to produce resonance. The the minimum height (velocity of sound =340 m/s) of the water level in the tube for that resonance is.

Water rises to capillary tube to a height of 4 cm. If radius of the tube is one-fourth, the water will rise to a height of

A cylindrical tank has a hole of 1cm^(2) in its bottom. If the water is allowed to flow into the tank from a tube above it at the rate of 70cm^(3)//sec , then the maximum height up to which water can rise in the tank is

Water rises to a height of 2 cm in a capillary tube. If the tube is tilted 60^@ from the vertical, water will rise in the tube to a length of