Boyle temperature: Difference between revisions

Latest revision as of 11:06, 7 October 2010

The Boyle temperature, $T_{B}$ , is the temperature at which the second virial coefficient becomes zero, i.e.

B_{2}\vert _{T=T_{B}}=0

.

At the Boyle temperature a non-ideal gas, more or less, obeys Boyle's law (which holds for an ideal gas).

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-The '''Boyle temperature''' is the [[temperature]] at which the [[Virial equation of state | second virial coefficient]] becomes zero,
+The '''Boyle temperature''', <math>T_B</math>, is the [[temperature]] at which the [[Virial equation of state | second virial coefficient]] becomes zero,
 ''i.e.''
-:<math>B_T \equiv B_2\vert_{T=T_B}=0</math>
+:<math>B_2\vert_{T=T_B}=0</math>.
-At the Boyle temperature a non-ideal gas, more or less, obeys [[Boyle's law]] (which holds for [[ideal gas]]es).
+At the Boyle temperature a non-ideal gas, more or less, obeys [[Boyle's law]] (which holds for an [[ideal gas]]).
+==See also==
+*[[Van der Waals equation of state#Boyle temperature |Boyle temperature of the van der Waals equation of state]]
+*[[Theta solvent]]
+==References==
+<references/>
+[[category: classical thermodynamics]]