If we want to determine the constant ‘A’ and ‘B’ then we can convert it into the equation of a straight line by taking the natural log i.e. According to this equation, an increase of temperature decreases the viscosities of liquids. Mathematical Relationship between Viscosity and TemperatureĪrrhenius has given the following relationship between viscosity and temperature.Ī and B are the constants depending upon the nature of the liquid. It is estimated that for each one-degree rise in temperature, there is a 2% decrease in viscosity. In other words, a viscosity of a liquid falls with the increase in temperature. It means that a liquid starts flowing faster at high temperatures. The increase in temperature increases the kinetic energy of molecules of liquids. Try Also: What are Examples and Applications of Viscosity in Everyday Life? Effect of Temperature 9 Examples of Viscosity in Everyday Life?
The units of fluidity are reciprocal of viscosity i.e. “Fluidity is the reciprocal of viscosity.” “When a force of one dyne per square cm is maintained, between two layers which are 1cm apart and the difference of velocity between the two layers is 1 cm per second, then it is called poise”.
The units of viscosity ”ŋ” can be derived from the equation (1) “It is the force per unit area, needed to maintain a unit difference of velocity between two parallel layers of the liquid, unit distance apart.” In the C.G.S system, the unit of “ŋ” is expressed as g cm -1 sec -1 and it is called Poise. It is also proportional to the area of the contact ‘A’ between the moving layers of the liquids. The force which is required to maintain the steady flow of liquid in direction of the force is directly proportional to the velocity gradient which is normal to the direction of flow.