Excess pressure can be `(2T//R)` for

Statement-1 : If there is a water bubble in air then excess pressure inside it is (4T)/(R) , where T is surface tension of water and R is the radius of the bubble. Statement-2 : If there is a water drop in air then excess pressure inside it is (2T)/(R) 1 Statement-3 : If there is an air bubble in water then excess pressure inside it is (4T)/(R)

If r , V and P are respectively the radius, volume and excess of pressure, for a bubble (or drop) then-

Excess Pressure In Soap Bubble

Excess pressure in a soap bubble of radius r is proportional to:

Excess Pressure and Surface Energy

A : Excess pressure inside a soap bubble is (4T)/r symbols have their usual meanings). R : The pressure difference across a curved surface of radius of curvature r is (2T)/r) . There are two surfaces in a soap bubble.

Excess pressure inside a soap bubble of radius r and surface tension T is

The excess pressure inside the drop of a liquid of surface tension T and radius of drom r is

A soap bubble has radius R and thickness d(ltltR) as shown. It collapses into a spherical drop. The ratio of excess pressure in the drop to the excess pressure inside the bubble is