Volltextergebnisse:
- syntax @wiki
- nd_strings_in_your_installation|localization]]): <code - conf/lang/en/lang.php> <?php /** * Customizati... be modified */ $lang['js']['nosmblinks'] = ''; </code> ==== Image Links ==== You can also use an imag... t use indention for deeper levels - That's it <code> * This is a list * The second item * You... t use indention for deeper levels - That's it </code> Also take a look at the [[doku>faq:lists|FAQ on
- syntax @en:wiki
- t use indention for deeper levels - That's it <code> * This is a list * The second item * You... t use indention for deeper levels - That's it </code> Also take a look at the [[doku>faq:lists|FAQ on... ) (tm) (r) "He thought 'It's a man's world'..." <code> -> <- <-> => <= <=> >> << -- --- 640x480 (c) (tm) (r) "He thought 'It's a man's world'..." </code> The same can be done to produce any kind of HTM
- ehydrology @en:lectures:ehydrology
- t Plant in Hamburg ===== PhreeqC scripts ===== <code> TITLE Speciate seawater is replaced by fresh wat... Ca+2 HCO3- Cl- -si Calcite Gypsum END </code> <code> TITLE Seawater species SOLUTION 0 Clean water for flushing units mmol/kgw p... K Cl Cd -molalities CaX2 MgX2 CdX2 END </code> ==== Sorption and Ion Exchange ==== You can i
- exchange @hydro:inghy
- ====== Ingenieurhydrologie Modellierung ====== <code rsplus |Blaney-Criddle.r> t <- c(0:35); d <- 0.85;... E <- (0.142*t+1.095)*(t+17.8)*k*d; plot(t, E); </code> ===== Lineare Regression rechnen ===== <code rsplus |Lin-Regr.r> #' --- #' title: "Lineae Regression... m = c(-3, 3), pch = 19) abline(fm, col = "red") </code> ==== Datein einlesen ==== <code> wd <- getwd()
- python @en:python
- erechnet und Graphiken dargestellt werden. ===== Code-Snippets ===== <code latex |Pythontex.tex> \documentclass[twocolumn]{article} \usepackage{pythontex}... two compile steps are \emph{only} necessary when code needs to be executed or highlighted. Otherwise, ... t{latex}{\verb}). \pygment{latex}{\pyc} executes code. By default, anything that is printed is automat
- isotopes @en:hydro
- gl.ulaval.ca/temp_select_page.html|alphadelta]] <code S| Fractionation.R> library(ggplot2) library(late... C, nudge_x=0.15, nudge_y=0.1, check_overlap=T) </code> If you do not have R or your computer or do not... l it now, you can use the window below to run the code online. Just copy the R code in the (grey) block and insert it into the window. The example code can be
- samos @projekte
- 9/13 Wed ===== ==== Example for Phreeqc ==== <code> TITLE WK001 SOLUTION 1 units ppm ... gfw 62.0 Cl 19353.0 END </code> ==== Hydrogencarbonate results ==== The HC... {{ :en:projekte:analysis.docx |}} **Group 1** <code> Members: 1.surface water WK015.028.010 2.grou... CO3- is higher, CI-+NO3- and SO42- are lower. </code> **Group 2** <code> Members: 1.sea water WK024
- biblio @refnotes
- ww.dokuwiki.org/|link.]] | ===== BibTex ===== <code bibtex> @Book{GangOfFour, author = "Erich {... http://en.wikipedia.org/wiki/Design_Patterns" } </code> The namespace can be either specified as part o... used for all following entries within the current code block that do not have namespace specified explicitly. <code bibtex> @Comment{refnotes, namespace = "ref:pro
- soil-salinization @projekte
- == ===== Introduction ===== ===== Modeling ===== Code for rainwater evaporation <code> TITLE Rainwater evaporation from Ladouche2009 SOLUTION 1 Precipitatio... 46 55.47 55.48 55.49 55.5 moles SAVE solution 3 </code> code for irrigation water evaporation <code> TITLE Irrigation water evaporation from Galazoulas2014 SO
- soil-salinization @en:projekte
- == ===== Introduction ===== ===== Modeling ===== Code for rainwater evaporation <code> TITLE Rainwater evaporation from Ladouche2009 SOLUTION 1 Precipitatio... 46 55.47 55.48 55.49 55.5 moles SAVE solution 3 </code> code for irrigation water evaporation <code> TITLE Irrigation water evaporation from Galazoulas2014 SO
- topic @topic
- = Themen ====== Programm zur Anwendung von TUW <code S> ## Load the data data(example_TUWmodel) ## Si... ns","Simulations"), col=c(1,2), lty=1, bty="n") </code> Programm für numerische Berechnung eines Einzellinearspeichers, <code S> ```{r ELSnum} Nt <- replicate(30,0) Nt[7] <- ... ,St,Qt) return(Resultat) } ELSnum(5,0,Nt) ``` </code> <code> ```{r ELS, echo=FALSE, fig.cap="ELS-Mo
- philipp @hydro
- p berechnet mit: $$ I(t) = S_p*t^{1/2}+K_p*t$$ <code | PhilippInt.py> from pylab import * def PhilippI... nge (mm)') xtext = xlabel('Zeit (Min.)') show() </code> mit der Sorptivität $S$ in $mm/S^{1/2}$ und der... tellt werden: $$ i(t) = 1/2*S_p*t^{-1/2}+K_p$$ <code | Philipp.py> from pylab import * def Philipp(t):... nge (mm)') xtext = xlabel('Zeit (Min.)') show() </code> <latex> \setlength{\unitlength}{1mm} \begin{pi
- horton @hydro
- Infiltrationsrate und $k$ einem Abklingfaktor. <code py | Horton.py> from pylab import * def Horton(t)... (mm/min)') xtext = xlabel('Zeit (Min.)') show() </code> Die kumulative Infiltration beträgt: $$F = \in... {∞}*t + (f_{0} - f_{∞})/k*(1-e^{-k*t})$$ in mm. <code py | HortonInt.py> from pylab import * def Horton... plot(t, HortonInt(t)) ytext = ylabel('Infiltration (mm)') xtext = xlabel('Zeit (Min.)') show() </code>
- clasius @hydro
- elsius | In R kann $e_s$ berechnet werden: <code rsplus |Clasius.r> T<-seq(0,35,0.5) es<-6.11*10^(... ) curve(6.11*10^((7.48*x/(237+x))), add = TRUE) </code> Eine Funktion zur Berechnung des Sättigungsdampfdruckes in R: <code rsplus |Clasius.r> es <- function(temp_dC) { t... data.frame(es,Einheit) return(res) } res <- es(15) res esv <- res[1] esu <- res[2] esv esu </code>