Contents
USAGE:
[n2, p_mid, in_funnel] = gsw_Nsquared_CT25(SA,CT,p,{lat})
DESCRIPTION:
Calculates the buoyancy frequency squared (N2)(i.e. the Brunt-Vaisala
frequency squared) at the mid pressure from the equation,
d(rho_local)
N2 = g2 x --------------
d(p)
Note. This routine uses rho from "gsw_rho_CT25", which is the
computationally-efficient 25-term expression for density in terms of
SA, CT and p.
Note also that the pressure increment, dP, in the above formula is in
Pa, so that it is 104 times the pressure incerment dp in dbar.
INPUT:
SA = Absolute Salinity [ g/kg ]
CT = Conservative Temperature [ deg C ]
p = sea pressure [ dbar ]
(ie. absolute pressure - 10.1325 dbar)
OPTIONAL:
lat = latitude in decimal degrees north [ -90 ... +90 ]
Note. If lat is not supplied, a default gravitational acceleration
of 9.7963 m/s2 (Griffies, 2004) will be applied.
SA & CT need to have the same dimensions.
p & lat may have dimensions 1x1 or Mx1 or 1xN or MxN, where SA & CT
are MxN.
OUTPUT:
n2 = Brunt-Vaisala Frequency squared (M-1xN) [ s-2 ]
p_mid = Mid pressure between p grid (M-1xN) [ dbar ]
in_funnel = 0, if SA, CT and p are outside the "funnel"
= 1, if SA, CT and p are inside the "funnel"
Note. The term "funnel" describes the range of SA, CT and p over which
the error in the fit of the computationally-efficient 25-term
expression for density was calculated (McDougall et al., 2010).
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;]
lat = 4;
[n2, p_mid, in_funnel] = gsw_Nsquared_CT25(SA,CT,p,lat)
n2 =
1.0e-003 *
0.060813236592168
0.235575235293653
0.215788878338715
0.012919578124467
0.008414868047304
p_mid =
1.0e+002 *
0.300000000000000
0.875000000000000
1.875000000000000
4.250000000000000
8.000000000000000
in_funnel =
1
1
1
1
1
1
AUTHOR:
Trevor McDougall and Paul Barker. [ help_gsw@csiro.au ]
VERSION NUMBER:
2.0 (22nd July, 2010)
REFERENCES:
Griffies, S. M., 2004: Fundamentals of Ocean Climate Models. Princeton,
NJ: Princeton University Press, 518 pp + xxxiv.
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 section 3.10 and Eqn. (3.10.2) of this TEOS-10 Manual.
McDougall T. J., D. R. Jackett, P. M. Barker, C. Roberts-Thomson, R.
Feistel and R. W. Hallberg, 2010: A computationally efficient 25-term
expression for the density of seawater in terms of Conservative
Temperature, and related properties of seawater. To be submitted
to Ocean Science Discussions.
The software is available from http://www.TEOS-10.org