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gsw_beta_CT_exact.m
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gsw_beta_CT_exact.m
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function beta_CT_exact = gsw_beta_CT_exact(SA,CT,p)
% gsw_beta_CT_exact saline contraction coefficient
% at constant Conservative temperature
%==========================================================================
%
% USAGE:
% beta_CT_exact = gsw_beta_CT_exact(SA,CT,p)
%
% DESCRIPTION:
% Calculates the saline (i.e. haline) contraction coefficient of seawater
% at constant Conservative Temperature.
%
% Note that this function uses the full Gibbs function. There is an
% alternative to calling this function, namely gsw_beta(SA,CT,p)
% which uses the computationally efficient 75-term expression for density
% in terms of SA, CT and p (Roquet et al., 2015).
%
% INPUT:
% SA = Absolute Salinity [ g/kg ]
% CT = Conservative Temperature (ITS-90) [ deg C ]
% p = sea pressure [ dbar ]
% ( i.e. 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:
% beta_CT_exact = saline contraction coefficient [ kg/g ]
% at constant Conservative Temperature
%
% AUTHOR:
% Trevor McDougall and Paul Barker [ [email protected] ]
%
% VERSION NUMBER: 3.05 (27th January 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 http://www.TEOS-10.org
% See Eqn. (2.19.3) 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
%
%==========================================================================
%--------------------------------------------------------------------------
% Check variables and resize if necessary
%--------------------------------------------------------------------------
if ~(nargin == 3)
error('gsw_beta_CT_exact: Requires three inputs')
end %if
[ms,ns] = size(SA);
[mt,nt] = size(CT);
[mp,np] = size(p);
if (mt ~= ms | nt ~= ns)
error('gsw_beta_CT_exact: SA and CT must have same dimensions')
end
if (mp == 1) & (np == 1) % p scalar - fill to size of SA
p = p*ones(size(SA));
elseif (ns == np) & (mp == 1) % p is row vector,
p = p(ones(1,ms), :); % copy down each column.
elseif (ms == mp) & (np == 1) % p is column vector,
p = p(:,ones(1,ns)); % copy across each row.
elseif (ns == mp) & (np == 1) % p is a transposed row vector,
p = p.'; % transposed then
p = p(ones(1,ms), :); % copy down each column.
elseif (ms == mp) & (ns == np)
% ok
else
error('gsw_beta_CT_exact: Inputs array dimensions arguments do not agree')
end %if
if ms == 1
SA = SA.';
CT = CT.';
p = p.';
transposed = 1;
else
transposed = 0;
end
%--------------------------------------------------------------------------
% Start of the calculation
%--------------------------------------------------------------------------
t = gsw_t_from_CT(SA,CT,p);
beta_CT_exact = gsw_beta_const_CT_t_exact(SA,t,p);
if transposed
beta_CT_exact = beta_CT_exact.';
end
end