Intensive and Extensive Properties in Thermodynamics
In thermodynamics, the concepts of intensive and extensive properties are crucial for describing and understanding the behavior of systems. Intensive properties in thermodynamics are those that do not depend on the size or amount of the system. Examples of intensive properties in thermodynamics include temperature, pressure, density, and specific heat capacity.
Extensive properties in thermodynamics are those that depend on the size or extent of the system. Examples of extensive properties in thermodynamics include internal energy, enthalpy, entropy, and volume.
Intensive and Extensive Properties of Matter
Intensive and Extensive properties are characterized as the physical properties of matter. Intensive property is a property of matter that does not change with the size of the sample, For example: pressure, density, etc. Extensive property is a property of matter that depends upon the amount of substance i.e. varies with the size of the material, like weight, volume, mass, etc.
In this article, we will learn about the intensive and extensive properties of matter, examples of extensive and intensive properties, and differences between extensive and intensive properties of matter.
Table of Content
- What are Intensive and Extensive Properties?
- Intensive and Extensive Properties in Thermodynamics
- Difference Between Intensive and Extensive property