An air bubble is lying just below the surface of water. The surface tension of water is `70xx10^(-3)Nm^(-1)` and atmospheric pressure is `1.013xx10^(5)Nm^(-2)`. If the radius of bubble is 1mm, then the pressure inside the bubble will be-

What should be the pressure inside a small air bubble of 0.1 mm radius situated just below the surface of water? Surface tension of water =72xx10^(-3)N//m and atmospheric pressure =1.013xx10^(5)N//m^(2)

What is the pressure on a swimmer 10m below the surface of lake? g=10ms^(-2) , atmospheric pressure = 1.01 xx 10^(5)Pa

Calculate the pressue inside air bubble of diameter 0.2 mm situated just below the surface of water. Surface tension of water is 72 xx 10^(-3) Nm^(-1) .

What should be the pressure inside a small air bubble of 0.1mm radius situated just below the water surface. Surface tension of water =7.2xx10^(-2)N//m and atmosphere pressure =1.013xx10^(5)N//m^(2) .

A small air bubble of radius 'r' is at a depth 'h' below the water surface (density of water = rho) . Surface tension of water is T, atmospheric pressure is p_(0) . Find pressure inside the air bubble for the condition r lt lt h

What is the pressure inside a drop of mercury of radius 3.0mm at room temperature? Surface tension of mercury at that temperature (20^(@)C) is 4.65xx10^(-1)Nm^(-1) . The atmospheric pressure is 1.01xx10^(5)Pa . Also give the excess pressure inside the drop.

A spherical drop of water has 2.5 mm radius. If the surface tension of water is 70 xx 10^(-3) N m^(-1) , then the excess pressure inside the drop is

An air bubble of radius 0.6mm may remain in equilibrium at a depth in water. If the surface tension of water is 72 xx10^(-3) N//m then calculate the depth.

If R is the radius of a soap bubble and S its surface tension, then the excess pressure inside is

The surface tension of a soap solution is 30 xx 10^(-3) N m^(-1) . How much work is done to increase the radius of a soap bubble from 1.5 cm to 3 cm?