Determine the period of oscillations of mercury of mass `m=200g` poured into a bent tube (figure) whose right arm forms an angle `theta=30^(@)` with vertical. The cross-sectional area of the tube is `S=0.50 cm^(2)`. The viscosity of mercury is to be neglected.

The period of oscillations of mercury of mass m ,density rho poured into a uniform bent tube,as shown in figure,whose right arm forms an angle theta=30^(@) with the vertical and whose left arm is vertical is T seconds.The cross - sectional area of the tube is S. The viscosity of mercury is to be neglected. If T is 2 pi sqrt((m)/(rho gS(x))) ,then value of x is ( assume g= acceleration due to gravity & all parameters in S.I.units)

A U-shaped tube open to the air at both ends contains some mercury. A quantity of water is carefully poured into the left arm of the U-shaped tube until the vertical height of the water column is 15.0 cm . (a) What is the gauge pressure at the water mercury interface ? (b) Calculate the vertical distance h from the top of the mercury in the right hand arm of the tube to the top of the water in the left-hand arm. .

A U-shaped tube open to the air at both ends contains some mercury. A quantity of water is carefully poured into the left arm of the U-shaped tube until the vertical height of the water column is 15.0 cm . (a) What is the gauge pressure at the water mercury interface ? (b) Calculate the vertical distance h from the top of the mercury in the right hand arm of the tube to the top of the water in the left-hand arm. .

A U-tube of uniform cross-section contains some mercury. If water is poured into one of the limbs up to a height of 13.4cm, then find the rise in the mercury level in the other limb. The density of mercury = 13.4g*cm^(-3) .

Water flows through the tubes shown in figure. The areas of cross-section of the wide and the narrow portions of the tube are 5 cm^(2) and 2 cm^(2) respectively. The rate of flow of water through the tube is 500 cm^(3)//s . Find the difference of mercury levels in the U-tube.

Water flows through the tube shown in figure. The areas of cross section of the wide and the narrow portions of the tube are 5cm^2 and 2cm^2 respectively. The rate of flow of water through the tube is 500 cm^3s^-1 . Find the difference of mercury levels in the U-tube.