Compressibility: Difference between revisions

Revision as of 13:16, 21 June 2007

The bulk modulus B gives the change in volume of a solid substance as the pressure on it is changed,

B=-V{\frac {\partial p}{\partial V}}

The compressibility K or $\kappa$ , is given by

\kappa ={\frac {1}{B}}

The isothermal compressibility, $\kappa _{T}$ is given by

\kappa _{T}=-{\frac {1}{V}}\left.{\frac {\partial V}{\partial p}}\right\vert _{T}={\frac {1}{\rho }}\left.{\frac {\partial \rho }{\partial p}}\right\vert _{T}

(Note: in Hansen and McDonald the isothermal compressibility is written as $\chi _{T}$ ). where $\rho$ is the particle number density given by

\rho ={\frac {N}{V}}

where $N$ is the total number of particles in the system, i.e.

N=\int _{V}\rho (r,t)~{\rm {d}}r

@@ Line 1: / Line 1: @@
-The '''compressibility''', <math>Z</math>, is given by
+The '''bulk modulus''' ''B'' gives the change in volume of a solid substance as the pressure on it is changed,
-:<math>Z= \frac{pV}{Nk_BT}</math>
-The '''bulk modulus''' <math>B</math> gives the change in volume of a solid substance as the pressure on it is changed,
 :<math>B = -V \frac{\partial p}{\partial V}</math>
-The ''compressibility'' <math>K</math> or <math>\kappa</math>, is given by
+The '''compressibility''' ''K'' or <math>\kappa</math>, is given by
 :<math>\kappa =\frac{1}{B}</math>
@@ Line 24: / Line 21: @@
 ==See also==
 The [[compressibility equation]] in [[statistical mechanics]].
-==Compressibility of an Ideal Gas==
-From the [[Equation of State: Ideal Gas | ideal gas law]]  we see that
-:<math>Z= \frac{pV}{Nk_BT}=1</math>
 [[category:classical thermodynamics]]