Problem Set 2: Difference between revisions

Revision as of 16:38, 28 January 2009

Critical behavior at the liquid-gas critical point

1) Use the Van der Waals equation to calculate the isothermal compressibility $\kappa _{T}=-{\frac {1}{V}}\left({\frac {\partial V}{\partial P}}\right)_{T}$ , at $T\;>\;T_{c}$ .

2) Determine its behavior near the critical point, and obtain the corresponding critical exponent $\gamma$ , defined by $\kappa _{T}\;{\sim }\;|T-T_{c}|^{-\gamma }$ .

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	1) Use the ''Van der Waals equation'' to calculate the isothermal compressibility <math>\kappa_T = \left( \partial V / \partial P \right)_T</math>, at <math>T\; >\; T_c</math>.		1) Use the ''Van der Waals equation'' to calculate the isothermal compressibility <math>\kappa_T = -\frac{1}{V}\left( \frac{\partial V}{\partial P} \right)_T</math>, at <math>T\; >\; T_c</math>.



	2) Determine its behavior near the critical point, and obtain the corresponding critical exponent <math>\gamma</math>, defined by <math>\kappa_T\; {\sim }\; \|T - T_c \|^{-\gamma}</math>.		2) Determine its behavior near the critical point, and obtain the corresponding critical exponent <math>\gamma</math>, defined by <math>\kappa_T\; {\sim }\; \|T - T_c \|^{-\gamma}</math>.

Problem Set 2: Difference between revisions

Revision as of 16:38, 28 January 2009

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