# Difference between revisions of "Phase Rule"

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The phase rule relates: | The phase rule relates: | ||

− | *F: | + | *F: The degrees of freedom of the system; see below. |

− | *P: | + | *P: The number of phases that can coexist; any separable material in the system. A phase can be a pure compound (say water for example) or a mixture (solid or aqueous), but the phase must "behave" as a consisten substance. |

− | *C: | + | *C: The number of components (that make up the phases) |

'''The Phase Rule States: the degrees of freedom of a system is equal to the number of components minus the number of phases plus two''' | '''The Phase Rule States: the degrees of freedom of a system is equal to the number of components minus the number of phases plus two''' | ||

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[[Image:Phase1.jpg]] | [[Image:Phase1.jpg]] | ||

+ | The 'degrees of freedom' of the system (at chemical equilibrium) refer to the number of conditions or variables that can be altered, independent of each other, without effecting the number of phases in the system. Essentially, the degrees of freedom of a system describe the dependency of parameters such as temperature and pressure on each other. | ||

+ | |||

+ | The critical point (on a phase diagram) can only exist at one temperature and pressure for a substance or system and thus the degrees of freedom at any critical point is zero. | ||

Line 17: | Line 20: | ||

References: | References: | ||

− | [1] | + | [1] http://www.chemicool.com/definition/phase_rule.html |

− | [2] | + | [2] http://serc.carleton.edu/research_education/equilibria/phaserule.html |

[3] | [3] |

## Revision as of 03:05, 7 December 2011

Entry by Andrew Capulli

**Definition: Phase Rule** (Gibbs' Phase Rule)

The phase rule relates:

- F: The degrees of freedom of the system; see below.
- P: The number of phases that can coexist; any separable material in the system. A phase can be a pure compound (say water for example) or a mixture (solid or aqueous), but the phase must "behave" as a consisten substance.
- C: The number of components (that make up the phases)

**The Phase Rule States: the degrees of freedom of a system is equal to the number of components minus the number of phases plus two**

The 'degrees of freedom' of the system (at chemical equilibrium) refer to the number of conditions or variables that can be altered, independent of each other, without effecting the number of phases in the system. Essentially, the degrees of freedom of a system describe the dependency of parameters such as temperature and pressure on each other.

The critical point (on a phase diagram) can only exist at one temperature and pressure for a substance or system and thus the degrees of freedom at any critical point is zero.

References:

[1] http://www.chemicool.com/definition/phase_rule.html

[2] http://serc.carleton.edu/research_education/equilibria/phaserule.html

[3]

In Reference: