Two separated air bubbles (radii `0.004 m and 0.002m`) formed of the same liquid (surface tension `0.07 N//m`) come together to form a double bubble. Find the radius and the sence of curvature of the internal film surface common to both the bubbles.

Two separate air bubbles (radii 0.002 cm and 0.004 ) formed of the same liquid (surface tension 0.07 N//m ) come together to form a double bubble. Find the radius and the sense of curvature of the internal film surface common to both the bubbles.

Two soap bubbles of radii 2 cm and 4 cm join to form a double bubble in air, then radius of. curvature of interface is

Two identical soap bubbles each of radius r and of the same surface tension T combine to form a new soap bubble of radius R . The two bubbles contain air at the same temperature. If the atmospheric pressure is p_(0) then find the surface tension T of the soap solution in terms of p_(0) , r and R . Assume process is isothermal.

A soap bubble A of radius 0.03 m and another bubble B of radius 0.04 m are brought together, so that the combined bubble has a common interface of radius r, then the value of r is

Two soap bubbles of radii 2 cm and 3 cm are brought in contact. Find the radius of curvature (in cm) of the contact surface.

The surface tension of a soap solution is 2xx10^(-2) N//m . To blow a bubble of radius 1cm, the work done is

There is an air bubble of radius 1.0 mm in a liquid of surface tension 0.075Nm^-1 and density 1000 kg m^-3 . The bubble is at a depth of 10 cm below the free surface. By what amount is the pressure inside the bubble greater than the atmospheric pressure? Take g=9.8ms^-2 .

A tube of fine bore AB is connected to a manomeer M as shown. The stop cock S controls the flow in air. AB is dipped into a liquid whosw surface tension is sigma . On opening the stop cock for a while, a bubble is formed at B and the manometer level is recorded, showing a difference h in the levels in the two arms. If rho be the density of manometer liquid and r the radius of curvature of the bubble, then the surface tension sigma of the liquid is given by

Two soap bubbles of radii a and b coalesce to form a single bubble of radius c . If the external pressure is P , find the surface tension of the soap solution.

There is an air bubble of radius 1.0mm in a liquid of surface tension 0.075Nm−1 and density 103kgm−3. The bubble is at a depth of 10.0cm below the free surface of a liquid. By what amount is the pressure inside the bubble greater than the atmospheric pressure?