Surface Tension of Liquids

Surface Tension of Liquids

• The phenomenon of surface tension arises due to the two kinds of inter molecular forces
  
  (i) Cohesion : The force of attraction between the molecules of a liquid by virtue of which they are bound to each other to remain as one assemblage of particles is known as the force of cohesion. This property enables the liquid to resist tensile stress.
  (ii) Adhesion : The force of attraction between unlike molecules, i.e. between the molecules of different liquids or between the molecules of a liquid and those of a solid body when they are in contact with each other, is known as the force of adhesion. This force enables two different liquids to adhere to each other or a liquid to adhere to a solid body or surface.
  Figure 2.3 The intermolecular cohesive force field in a bulk of liquid with a free surface
  
  A and B experience equal force of cohesion in all directions, C experiences a net force interior of the liquid The net force is maximum for D since it is at surface
• Work is done on each molecule arriving at surface against the action of an inward force. Thus mechanical work is performed in creating a free surface or in increasing the area of the surface. Therefore, a surface requires mechanical energy for its formation and the existence of a free surface implies the presence of stored mechanical energy known as free surface energy. Any system tries to attain the condition of stable equilibrium with its potential energy as minimum. Thus a quantity of liquid will adjust its shape until its surface area and consequently its free surface energy is a minimum.
• The magnitude of surface tension is defined as the tensile force acting across imaginary short and straight elemental line divided by  the length of the line.
• The dimensional formula is F/L or MT^-2 . It is usually expressed in N/m in SI units.
• Surface tension is a binary property of the liquid and gas or two liquids which are in contact with each other and defines the  interface. It decreases slightly with increasing temperature. The surface tension of water in contact with air at 20°C is about 0.073 N/m.
• It is due to surface tension that a curved liquid interface in equilibrium results in a greater pressure at the concave side of the surface than that at its convex side.