swLapseRate: Seawater lapse rate
In oce: Analysis of Oceanographic Data
swLapseRate R Documentation
Seawater lapse rate
Description
Compute adiabatic lapse rate
Usage
swLapseRate(
salinity,
temperature = NULL,
pressure = NULL,
longitude = NULL,
latitude = NULL,
eos = getOption("oceEOS", default = "gsw")
)
Arguments
salinity
either salinity (PSU) (in which case temperature and
pressure must be provided) or a ctd object (in which
case salinity, temperature and pressure are determined
from the object, and must not be provided in the argument list).
temperature
in-situ temperature (^\circC), defined
on the ITS-90 scale; see “Temperature units” in the documentation for
swRho().
pressure
pressure (dbar)
longitude
longitude of observation (only used if eos="gsw";
see “Details”).
latitude
latitude of observation (only used if eos="gsw"; see
“Details”).
eos
equation of state, either "unesco" (references 1 and 2)
or "gsw" (references 3 and 4).
Details
If eos="unesco", the density is calculated using the UNESCO equation
of state for seawater (references 1 and 2), and if eos="gsw", the GSW formulation
(references 3 and 4) is used.
Value
Lapse rate (degC/m).
Author(s)
Dan Kelley
References
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. (Section 7, pages 38-40)
See Also
Other functions that calculate seawater properties:
T68fromT90(),
T90fromT48(),
T90fromT68(),
computableWaterProperties(),
locationForGsw(),
swAbsoluteSalinity(),
swAlphaOverBeta(),
swAlpha(),
swBeta(),
swCSTp(),
swConservativeTemperature(),
swDepth(),
swDynamicHeight(),
swN2(),
swPressure(),
swRho(),
swRrho(),
swSCTp(),
swSR(),
swSTrho(),
swSigma0(),
swSigma1(),
swSigma2(),
swSigma3(),
swSigma4(),
swSigmaTheta(),
swSigmaT(),
swSigma(),
swSoundAbsorption(),
swSoundSpeed(),
swSpecificHeat(),
swSpice(),
swSstar(),
swTFreeze(),
swTSrho(),
swThermalConductivity(),
swTheta(),
swViscosity(),
swZ()
Examples
lr <- swLapseRate(40, 40, 10000) # 3.255976e-4
oce documentation built on July 9, 2023, 5:18 p.m.
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| swLapseRate | R Documentation |
Seawater lapse rate
Description
Compute adiabatic lapse rate
Usage
swLapseRate(
salinity,
temperature = NULL,
pressure = NULL,
longitude = NULL,
latitude = NULL,
eos = getOption("oceEOS", default = "gsw")
)
Arguments
salinity |
either salinity (PSU) (in which case |
temperature |
in-situ temperature ( |
pressure |
pressure (dbar) |
longitude |
longitude of observation (only used if |
latitude |
latitude of observation (only used if |
eos |
equation of state, either |
Details
If eos="unesco", the density is calculated using the UNESCO equation
of state for seawater (references 1 and 2), and if eos="gsw", the GSW formulation
(references 3 and 4) is used.
Value
Lapse rate (degC/m).
Author(s)
Dan Kelley
References
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. (Section 7, pages 38-40)
See Also
Other functions that calculate seawater properties:
T68fromT90(),
T90fromT48(),
T90fromT68(),
computableWaterProperties(),
locationForGsw(),
swAbsoluteSalinity(),
swAlphaOverBeta(),
swAlpha(),
swBeta(),
swCSTp(),
swConservativeTemperature(),
swDepth(),
swDynamicHeight(),
swN2(),
swPressure(),
swRho(),
swRrho(),
swSCTp(),
swSR(),
swSTrho(),
swSigma0(),
swSigma1(),
swSigma2(),
swSigma3(),
swSigma4(),
swSigmaTheta(),
swSigmaT(),
swSigma(),
swSoundAbsorption(),
swSoundSpeed(),
swSpecificHeat(),
swSpice(),
swSstar(),
swTFreeze(),
swTSrho(),
swThermalConductivity(),
swTheta(),
swViscosity(),
swZ()
Examples
lr <- swLapseRate(40, 40, 10000) # 3.255976e-4
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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