phase rule Antonyms
No Synonyms and anytonyms found
Meaning of phase rule
phase rule ()
A generalization with regard to systems of chemical equilibrium, discovered by Prof. J. Willard Gibbs. It may be stated thus: The degree of variableness (number of degrees of freedom) of a system is equal to the number of components minus the number of phases, plus two. Thus, if the components be salt and water, and the phases salt, ice, saturated solution, and vapor, the system is invariant, that is, there is only one set of conditions under which these four phases can exist in equilibrium. If only three phases be considered, the system is univariant, that is, the fixing of one condition, as temperature, determines the others.
phase rule Sentence Examples
- The phase rule governs the equilibrium relationships between different phases in a multicomponent system.
- According to the phase rule, the number of degrees of freedom in a system at equilibrium is equal to the number of components minus the number of phases plus two.
- The phase rule can be used to predict the stability of phases and the conditions under which phase transitions occur.
- The phase rule has important applications in metallurgy, chemistry, and material science.
- The phase rule can be used to determine the number of independent variables that can be varied without changing the number of phases in a system.
- The phase rule can be applied to systems with any number of components and phases.
- The phase rule is a powerful tool for understanding the behavior of complex systems.
- The phase rule can be used to design experiments and optimize processes.
- The phase rule is a fundamental concept in physical chemistry.
- The phase rule has been used to develop a wide variety of materials and technologies.
FAQs About the word phase rule
A generalization with regard to systems of chemical equilibrium, discovered by Prof. J. Willard Gibbs. It may be stated thus: The degree of variableness (number
No synonyms found.
No antonyms found.
The phase rule governs the equilibrium relationships between different phases in a multicomponent system.
According to the phase rule, the number of degrees of freedom in a system at equilibrium is equal to the number of components minus the number of phases plus two.
The phase rule can be used to predict the stability of phases and the conditions under which phase transitions occur.
The phase rule has important applications in metallurgy, chemistry, and material science.