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author | John Wright <wright@chem.wisc.edu> | 2018-04-04 12:08:57 -0500 |
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committer | John Wright <wright@chem.wisc.edu> | 2018-04-04 12:08:57 -0500 |
commit | a556dba6d7b956ab6469916d886dfeea8dcc2932 (patch) | |
tree | 671b720ad36d5a5549a1bf6653ea01dfb4bfb4ba /acquisition | |
parent | dc15adadcb2b7560d982c3aee0ef319b50d9d362 (diff) |
little warning fixes
Diffstat (limited to 'acquisition')
-rw-r--r-- | acquisition/chapter.tex | 4 |
1 files changed, 2 insertions, 2 deletions
diff --git a/acquisition/chapter.tex b/acquisition/chapter.tex index 0d3d1c5..0436028 100644 --- a/acquisition/chapter.tex +++ b/acquisition/chapter.tex @@ -36,7 +36,7 @@ for w2 in w2_points: set_d2(d2)
measure_signal()
\end{codefragment}
-In this simple example, there are 5 \python{w1} destinations, 7 \phon{w2} destinations, and 12
+In this simple example, there are 5 \python{w1} destinations, 7 \python{w2} destinations, and 12
\python{d2} destinations, so there are a total of $5\times7\times12=420$ pixels in the
three-dimensional scan. %
The acquisition software must set the hardware to each of these points and acquire data at each of
@@ -732,7 +732,7 @@ We can write the conjugate equation to \ref{eq:simple_exponential_decay}, asking need to get a cerain signal level?'':
\begin{eqnarray}
\log{(S)} &=& -\frac{t}{\tau} \\
-t &=& -\taulog{(S)}.
+t &=& -\tau\log{(S)}.
\end{eqnarray}
So to step linearly in $t$, my step size has to go as $-\tau\log{(S)}$.
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