gsw_gibbs_ice: Gibbs Energy of Ice, and its Derivatives
In gsw: Gibbs Sea Water Functions
gsw_gibbs_ice R Documentation
Gibbs Energy of Ice, and its Derivatives
Description
Gibbs Energy of Ice, and its Derivatives
Usage
gsw_gibbs_ice(nt, np, t, p = 0)
Arguments
nt
An integer, the order of the t derivative. Must be 0, 1, or 2.
np
An integer, the order of the p derivative. Must be 0, 1, or 2.
t
in-situ temperature (ITS-90) [ degC ]
p
sea pressure [dbar], i.e. absolute pressure [dbar] minus 10.1325 dbar
Value
Gibbs energy [ J/kg ] if ns=nt=np=0. Derivative of energy
with respect to t [ J/kg/(degC)^nt ] if nt is nonzero,
etc. Note that derivatives with respect to pressure are in units with Pa, not dbar.
Implementation Note
This R function uses a wrapper to a C function contained within the GSW-C
system as updated 2021-12-28 at https://github.com/TEOS-10/GSW-C with
git commit '98f0fd40dd9ceb0ba82c9d47ac750e935a7d0459'.
The C function uses data from the library/gsw_data_v3_0.mat
file provided in the GSW-Matlab source code, version 3.06-11.
Unfortunately, this version of the mat file is no longer displayed on the
TEOS-10.org website. Therefore, in the interests of making GSW-R be
self-contained, a copy was downloaded from
http://www.teos-10.org/software/gsw_matlab_v3_06_11.zip on 2022-05-25,
the .mat file was stored in the developer/create_data directory of
https://github.com/TEOS-10/GSW-R, and then the dataset used in GSW-R
was created based on that .mat file.
Please consult http://www.teos-10.org to learn more about the various
TEOS-10 software systems.
Caution
The TEOS-10 webpage for gsw_gibbs_ice does not provide test values, so
the present R version should be considered untested.
References
http://www.teos-10.org/pubs/gsw/html/gsw_gibbs_ice.html
Examples
library(gsw)
p <- seq(0, 100, 1)
t <- rep(-5, length(p))
## Check the derivative wrt pressure. Note the unit change
E <- gsw_gibbs_ice(0, 0, t, p)
# Estimate derivative from linear fit (try plotting: it is very linear)
m <- lm(E ~ p)
print(summary(m))
plot(p, E)
abline(m)
dEdp1 <- coef(m)[2]
# Calculate derivative ... note we multiply by 1e4 to get from 1/Pa to 1/dbar
dEdp2 <- 1e4 * gsw_gibbs_ice(0, 1, t[1], p[1])
## Ratio
dEdp1 / dEdp2
gsw documentation built on Oct. 16, 2022, 5:06 p.m.
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| gsw_gibbs_ice | R Documentation |
Gibbs Energy of Ice, and its Derivatives
Description
Gibbs Energy of Ice, and its Derivatives
Usage
gsw_gibbs_ice(nt, np, t, p = 0)
Arguments
nt |
An integer, the order of the |
np |
An integer, the order of the |
t |
in-situ temperature (ITS-90) [ degC ] |
p |
sea pressure [dbar], i.e. absolute pressure [dbar] minus 10.1325 dbar |
Value
Gibbs energy [ J/kg ] if ns=nt=np=0. Derivative of energy
with respect to t [ J/kg/(degC)^nt ] if nt is nonzero,
etc. Note that derivatives with respect to pressure are in units with Pa, not dbar.
Implementation Note
This R function uses a wrapper to a C function contained within the GSW-C system as updated 2021-12-28 at https://github.com/TEOS-10/GSW-C with git commit '98f0fd40dd9ceb0ba82c9d47ac750e935a7d0459'.
The C function uses data from the library/gsw_data_v3_0.mat
file provided in the GSW-Matlab source code, version 3.06-11.
Unfortunately, this version of the mat file is no longer displayed on the
TEOS-10.org website. Therefore, in the interests of making GSW-R be
self-contained, a copy was downloaded from
http://www.teos-10.org/software/gsw_matlab_v3_06_11.zip on 2022-05-25,
the .mat file was stored in the developer/create_data directory of
https://github.com/TEOS-10/GSW-R, and then the dataset used in GSW-R
was created based on that .mat file.
Please consult http://www.teos-10.org to learn more about the various TEOS-10 software systems.
Caution
The TEOS-10 webpage for gsw_gibbs_ice does not provide test values, so
the present R version should be considered untested.
References
http://www.teos-10.org/pubs/gsw/html/gsw_gibbs_ice.html
Examples
library(gsw) p <- seq(0, 100, 1) t <- rep(-5, length(p)) ## Check the derivative wrt pressure. Note the unit change E <- gsw_gibbs_ice(0, 0, t, p) # Estimate derivative from linear fit (try plotting: it is very linear) m <- lm(E ~ p) print(summary(m)) plot(p, E) abline(m) dEdp1 <- coef(m)[2] # Calculate derivative ... note we multiply by 1e4 to get from 1/Pa to 1/dbar dEdp2 <- 1e4 * gsw_gibbs_ice(0, 1, t[1], p[1]) ## Ratio dEdp1 / dEdp2
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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