For a surface molecule,

Surface tension arises from the cohesive force between the surface molecules, Interplay between cohesion and adhension forces make the surface inclined at acute or obtuse angle with the contacting solid surfaces. This causes a capillary rise (or fall) given as, h=(2T cos theta)/( rho g r) where theta = angle of contact, T = surface tension, rho =density of the liquid, g = acceleration due to gravity and r = radius of the capillary tube. If the vessel accelerates up, capillary rise

Surface tension arises from the cohesive force between the surface molecules, Interplay between cohesion and adhension forces make the surface inclined at acute or obtuse angle with the contacting solid surfaces. This causes a capillary rise (or fall) given as, h=(2T cos theta)/( rho g r) where theta = angle of contact, T = surface tension, rho =density of the liquid, g = acceleration due to gravity and r = radius of the capillary tube. In capillary action theta can be

At CMC (Critical Micellisation Conc.) the surface molecules

The properties of a surface are different from those of the bulk liquid because the surface molecules

The properties of a surface are different from those of the bulk liquid because the surface molecules

The properties of a surface are different from those of the bulk liquid because the surface molecules

In the given figure I is surface molecule whereas II is interior molecule . Choose the correct option .

When the size of a soap bubble is increased by pushing more air in it, the surface area increases. Does it mean that the average separation between the surface molecules is increased?

When the size of a soap bubble is increased by pushing more air in it, the surface area increases. Does it mean that the average separation between the surface molecules is increased?