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c/*@@
c @file EOS_Ideal_Fluid.F
c @date December 1999
c @author Mark Miller
c @desc
c Routines to calculate Ideal Fluid EOS through EOS_Base
c @enddesc
c@@*/
#include "cctk.h"
#include "cctk_Parameters.h"
c/*@@
c @routine EOS_Ideal_Fluid_Pressure
c @date December 1999
c @author Mark Miller
c @desc
c Calculate the pressure P=(gamma-1)*eps*rho
c @enddesc
c @calls
c @calledby
c @history
c
c @endhistory
c
c@@*/
CCTK_REAL FUNCTION EOS_Ideal_Fluid_Pressure(rest_mass_density,
. specific_internal_energy)
IMPLICIT NONE
DECLARE_CCTK_PARAMETERS
CCTK_REAL rest_mass_density
CCTK_REAL specific_internal_energy
EOS_Ideal_Fluid_Pressure = (eos_ideal_fluid_gamma - 1.0d0) *
. rest_mass_density * specific_internal_energy
END FUNCTION EOS_Ideal_Fluid_Pressure
c/*@@
c @routine EOS_Ideal_Fluid_SpecificIE
c @date December 1999
c @author Mark Miller
c @desc
c Calculate the specific internal energy
c eps = press / ( (gamma-1)*rho)
c @enddesc
c @calls
c @calledby
c @history
c
c @endhistory
c
c@@*/
CCTK_REAL FUNCTION EOS_Ideal_Fluid_SpecificIE(rest_mass_density,pressure)
IMPLICIT NONE
DECLARE_CCTK_PARAMETERS
CCTK_REAL rest_mass_density
CCTK_REAL pressure
EOS_Ideal_Fluid_SpecificIE = pressure / ((eos_ideal_fluid_gamma - 1.0d0)*
. rest_mass_density)
END FUNCTION EOS_Ideal_Fluid_SpecificIE
c/*@@
c @routine EOS_Ideal_Fluid_RestMassDens
c @date December 1999
c @author Mark Miller
c @desc
c Calculate the rest mass density
c rho = pressure / ((gamma-1)*eps)
c @enddesc
c @calls
c @calledby
c @history
c
c @endhistory
c
c@@*/
CCTK_REAL FUNCTION EOS_Ideal_Fluid_RestMassDens(specific_internal_energy,
. pressure)
IMPLICIT NONE
DECLARE_CCTK_PARAMETERS
CCTK_REAL specific_internal_energy
CCTK_REAL pressure
EOS_Ideal_Fluid_RestMassDens = pressure /
. ((eos_ideal_fluid_gamma - 1.0d0)*specific_internal_energy)
END FUNCTION EOS_Ideal_Fluid_RestMassDens
c/*@@
c @routine EOS_Ideal_Fluid_DPressByDRho
c @date December 1999
c @author Mark Miller
c @desc
c Calculate d(pressure)/d(rho), keeping eps fixed:
c dp/drho = (gamma-1)*eps
c @enddesc
c @calls
c @calledby
c @history
c
c @endhistory
c
c@@*/
CCTK_REAL FUNCTION EOS_Ideal_Fluid_DPressByDRho(rest_mass_density,
. specific_internal_energy)
IMPLICIT NONE
DECLARE_CCTK_PARAMETERS
CCTK_REAL rest_mass_density
CCTK_REAL specific_internal_energy
EOS_Ideal_Fluid_DPressByDRho = (eos_ideal_fluid_gamma - 1.0d0) *
. specific_internal_energy
END FUNCTION EOS_Ideal_Fluid_DPressByDRho
c/*@@
c @routine EOS_Ideal_Fluid_DPressByDEps
c @date December 1999
c @author Mark Miller
c @desc
c Calculate d(pressure)/d(eps), keeping rho fixed
c dp/deps = (gamma-1)*rho
c @enddesc
c @calls
c @calledby
c @history
c
c @endhistory
c
c@@*/
CCTK_REAL FUNCTION EOS_Ideal_Fluid_DPressByDEps(rest_mass_density,
. specific_internal_energy)
IMPLICIT NONE
DECLARE_CCTK_PARAMETERS
CCTK_REAL rest_mass_density
CCTK_REAL specific_internal_energy
EOS_Ideal_Fluid_DPressByDEps = (eos_ideal_fluid_gamma - 1.0d0) *
. rest_mass_density
END FUNCTION EOS_Ideal_Fluid_DPressByDEps
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