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--- gibson:teaching:spring-2016:math445:lecture:scripts [2016/02/01 19:10]
gibson [logarithmic plots]
+++ gibson:teaching:spring-2016:math445:lecture:scripts [2016/02/03 13:54] (current)
gibson [Logarithmic plots]
@@ Line 4: / Line 4: @@
 <code>
   Matlab scripting
-  plot, semilogy, semilogx, loglog
+  linestyles and plot modifiers:
-  xlabel, ylabel, title, legend, axis, grid, clf,
+    xlabel, ylabel, title, legend, axis, grid, clf,
-  linestyles
   load, save
-  what, pwd
+  plot, semilogy, semilogx, loglog
+  what, who, pwd, ls
 </code>
@@ Line 51: / Line 51: @@
 {{ :gibson:teaching:spring-2016:math445:sincos.png?direct&400 |}}
-===== Markers and line styles =====
+===== Line styles and markers =====
 The above plotting script used the matlab **linestyle** codes '' 'b-' '' and '' 'r-' '' to generate blue and red curves for $\cos x$ and $\sin x$. Matlab's **help** function provides a pretty good description of how line and marker style codes work.
@@ Line 106: / Line 106: @@
 </code>
-===== logarithmic plots =====
-Logarithmic plots are useful when the data you're plotting varies over many orders of magnitude. Logarithmic plots can also highlight certain functional relationships
-^ plot command ^ functional relationship ^
-| **plot(x,y)** ^ $y = mx + b$ ^
-| **semilogy(x,y)** | $y = c \; 10^{mx}$ ^
-| **semilogx(x,y)** | $y = m \log x + b$ ^
-| **loglog(x,y)** | $y = c x^m$ ^

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