Statement -1 : A large soap bubble expands while a small bubble shrink, when they are connecteed to each other by a capillary tube.
Statement -2 : The excess pressure (due to surface tension) inside a spherical bubble increasesee, as its volume decreases.

Statement-1: In gravity free space, the liqid in a capillary tube will rise to infinite height. Statement-2: In the absence of gravity there will be no force to prevent the rise of liquid due to surface tension.

A small spherical monoatomic ideal gas bubble (gamma=5//3) is trapped inside a liquid of density rho (see figure). Assume that the bubble does not exchange any heat with the liquid. The bubble contains n moles of gas. The temperature of the gas when the bubble is at the bottom is T_0 , the height of the liquid is H and the atmospheric pressure P_0 (Neglect surface tension). The buoyancy force acting on the gas bubble is (Assume R is the universal gas constant)

A small spherical monoatomic ideal gas bubble (gamma= (5)/(3)) is trapped inside a liquid of density rho_(l) (see figure) . Assume that the bubble does not exchange any heat with the liquid. The bubble contains n moles of gas. The temperature of the gas when the bubble is at the bottom is T_(0) , the height of the liquid is H and the atmospheric pressure is P_(0) (Neglect surface tension). When the gas bubble is at a height y from the bottom , its temperature is :-

A small spherical monoatomic ideal gas bubble (gamma=5//3) is trapped inside a liquid of density rho (see figure). Assume that the bubble does not exchange any heat with the liquid. The bubble contains n moles of gas. The temperature of the gas when the bubble is at the bottom is T_0 , the height of the liquid is H and the atmospheric pressure P_0 (Neglect surface tension). As the bubble moves upwards, besides the buoyancy force the following forces are acting on it

Two spherical soap bubble coalesce. If V is the consequent change in volume of the contained air and S the change in total surface area, show that 3PV+4ST=0 where T is the surface tension of soap bubble and P is Atmospheric pressure

Statement-1 : Node of pressure wave is formed at the open end of an organ pipe Statement-2 : Due to huge volume of the atmosphere outside the tube, deformation in its volume is negligible.

Find the difference of air pressure (in N-m^(-2) ) between the inside and outside of a soap bubble 5 mm in diameter, if the surface tension is 1.6 N-m^(-1) :-

The lower end of a capillary tube of diameter 2.00 mm is dipped 8.00 cm below the surface of water in a beaker . What is the pressure required in the tube in order to blow a hemispherical bubble at the end in water ? The surface tension of water at temperature of the experiments is 7.30xx10^(-2)Nm^(9-1) . 1 atmospheric pressure =1.01xx10^(5)Pa . Density of water =1000kg//m^(3),g=9.80ms^(-2) . Also calulate the excess pressure .

Calculate the excess pressure withing a bubble of air of radius 0.1 mm in water. If te bubble had been formed 10 cm below the water surface on a day when the atmospheric pressure was 1.013xx10^(5)Pa then what would have been the total pressure inside the bubble? surface tension of water =73xx10^(-3)N//m