Compressibility: Difference between revisions
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(Note: in Hansen and McDonald the isothermal compressibility is written as <math>\chi_T</math>). | (Note: in Hansen and McDonald the isothermal compressibility is written as <math>\chi_T</math>). | ||
where <math>\rho</math> is the ''particle number density'' given by | where <math>T</math> is the [[temperature]], <math>\rho</math> is the ''particle number density'' given by | ||
:<math>\rho = \frac{N}{V}</math> | :<math>\rho = \frac{N}{V}</math> | ||
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:<math>N = \int_V \rho({\mathbf r},t)~{\rm d}{\mathbf r}</math> | :<math>N = \int_V \rho({\mathbf r},t)~{\rm d}{\mathbf r}</math> | ||
==Adiabatic compressibility== | ==Adiabatic compressibility== | ||
The '''adiabatic compressibility''', <math>\kappa_S</math> is given by | The '''adiabatic compressibility''', <math>\kappa_S</math> is given by |
Latest revision as of 17:07, 13 February 2008
The bulk modulus B gives the change in volume of a solid substance as the pressure on it is changed,
The compressibility K or , is given by
Isothermal compressibility[edit]
The isothermal compressibility, is given by
(Note: in Hansen and McDonald the isothermal compressibility is written as ). where is the temperature, is the particle number density given by
where is the total number of particles in the system, i.e.
Adiabatic compressibility[edit]
The adiabatic compressibility, is given by
where is the entropy.