Compute in-situ temperature, given salinity, density, and pressure.
swTSrho(
salinity,
density,
pressure = NULL,
eos = getOption("oceEOS", default = "gsw")
)in-situ salinity (PSU)
in-situ density or sigma value (kg/m\(^3\))
in-situ pressure (dbar)
equation of state to be used, either "unesco" or
"gsw" (ignored at present).
In-situ temperature in \(^\circ\)C on the ITS-90 scale.
Finds the temperature that yields the given density, with the given salinity and pressure. The method is a bisection search with temperature tolerance 0.001 \(^\circ\)C.
Fofonoff, P. and R. C. Millard Jr, 1983. Algorithms for computation of fundamental properties of seawater. Unesco Technical Papers in Marine Science, 44, 53 pp
Gill, A.E., 1982. Atmosphere-ocean Dynamics, Academic Press, New York, 662 pp.
Other functions that calculate seawater properties:
T68fromT90(),
T90fromT48(),
T90fromT68(),
computableWaterProperties(),
locationForGsw(),
swAbsoluteSalinity(),
swAlphaOverBeta(),
swAlpha(),
swBeta(),
swCSTp(),
swConservativeTemperature(),
swDepth(),
swDynamicHeight(),
swLapseRate(),
swN2(),
swPressure(),
swRho(),
swRrho(),
swSCTp(),
swSR(),
swSTrho(),
swSigma0(),
swSigma1(),
swSigma2(),
swSigma3(),
swSigma4(),
swSigmaTheta(),
swSigmaT(),
swSigma(),
swSoundAbsorption(),
swSoundSpeed(),
swSpecificHeat(),
swSpice(),
swSstar(),
swTFreeze(),
swThermalConductivity(),
swTheta(),
swViscosity(),
swZ()
# NOT RUN {
swTSrho(35, 23, 0, eos="unesco") # 26.11301
# }
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