gsw_specvol_first_derivatives_CT_exact

SA, CT and p partial derivatives of specific volume

Contents

USAGE:

[v_SA, v_CT, v_P] = gsw_specvol_first_derivatives_CT_exact(SA,CT,p)

DESCRIPTION:

Calculates the three (3) partial derivatives of specific volume with 
respect to Absolute Salinity, Conservative Temperature and pressure.  
Note that the pressure derivative is done with respect to pressure in 
Pa, not dbar.
Note that this function uses the full Gibbs function.  There is an 
alternative to calling this function, namely 
gsw_specvol_first_derivatives(SA,CT,p), which uses the computationally
efficient 75-term expression for specific volume in terms of SA, CT
and p (Roquet et al., 2015).

INPUT:

SA  =  Absolute Salinity                                        [ g/kg ]
CT  =  Conservative Temperature                                [ deg C ]
p   =  sea pressure                                             [ dbar ]
       (ie. absolute pressure - 10.1325 dbar)
SA & CT need to have the same dimensions.
p may have dimensions 1x1 or Mx1 or 1xN or MxN, where SA & CT are MxN.

OUTPUT:

>v_SA  =  partial derivative of specific volume     [ (m^3/kg)(g/kg)^-1 ]
             with respect to Absolute Salinity
v_CT  =  partial derivative of specific volume            [ m^3/(kg K) ]
             with respect to Conservative Temperature
v_P   =  partial derivative of specific volume           [ m^3/(kg Pa) ]
             with respect to pressure in Pa

EXAMPLE:

SA = [34.7118; 34.8915; 35.0256; 34.8472; 34.7366; 34.7324;]
CT = [28.8099; 28.4392; 22.7862; 10.2262;  6.8272;  4.3236;]
p =  [     10;      50;     125;     250;     600;    1000;]
[v_SA, v_CT, v_P] = gsw_specvol_first_derivatives_CT_exact(SA,CT,p)
v_SA =
   1.0e-06 *
  -0.702151686357802
  -0.702018777889202
  -0.708902151370047
  -0.730216366749846
  -0.733186389132643
  -0.733589215900468
v_CT =
   1.0e-06 *
   0.317767696081491
   0.315695735430402
   0.274474304618161
   0.168456876703028
   0.142031183703832
   0.125413571340533
v_P =
   1.0e-12 *
  -0.402456105411972
  -0.402077764240267
  -0.406607049872450
  -0.423888373421043
  -0.426206689172915
  -0.426391950877788

AUTHOR:

Paul Barker and Trevor McDougall          [ help@teos-10.org ]

VERSION NUMBER:

3.05 (16th February, 2015)

REFERENCES:

IOC, SCOR and IAPSO, 2010: The international thermodynamic equation of
 seawater - 2010: Calculation and use of thermodynamic properties.
 Intergovernmental Oceanographic Commission, Manuals and Guides No. 56,
 UNESCO (English), 196 pp.  Available from the TEOS-10 web site.
  See appendix A.20 and appendix K of this TEOS-10 Manual.
Roquet, F., G. Madec, T.J. McDougall, P.M. Barker, 2015: Accurate
 polynomial expressions for the density and specifc volume of seawater
 using the TEOS-10 standard. Ocean Modelling.
The software is available from http://www.TEOS-10.org