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| author | Eugeniy Mikhailov <evgmik@gmail.com> | 2014-09-03 09:15:54 -0400 |
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| committer | Eugeniy Mikhailov <evgmik@gmail.com> | 2014-09-03 09:15:54 -0400 |
| commit | eb2e7a73602b9a23f121110f86662507dfc0db8b (patch) | |
| tree | 60fcf88ad889b3c73d1ce567c97105ccda9dfb57 /interferometry.tex | |
| parent | 401f31c8c78849b82f940af3db6204f841275bfb (diff) | |
| download | manual_for_Experimental_Atomic_Physics-eb2e7a73602b9a23f121110f86662507dfc0db8b.tar.gz manual_for_Experimental_Atomic_Physics-eb2e7a73602b9a23f121110f86662507dfc0db8b.zip | |
micrometer reading corrected (thanks Jordan) and figure split into 3
Diffstat (limited to 'interferometry.tex')
| -rw-r--r-- | interferometry.tex | 11 |
1 files changed, 10 insertions, 1 deletions
diff --git a/interferometry.tex b/interferometry.tex index a4fff68..d35f085 100644 --- a/interferometry.tex +++ b/interferometry.tex @@ -117,7 +117,16 @@ Once the interferometer is aligned, insert a convex lens ($f=\unit[18]{mm}$ work \textbf{Note}: before starting the measurements, make sure you understand how to read the micrometer properly! \begin{figure}[h] \centering -\includegraphics[width=0.7\columnwidth]{./pdf_figs/fig3} +%\includegraphics[width=0.7\columnwidth]{./pdf_figs/fig3} +\subcaptionbox{Reading = 211~$\mu$m} { +\includegraphics[height=1.3in]{./pdf_figs/micrometer1} +} +\subcaptionbox{Reading = 345~$\mu$m} { +\includegraphics[height=1.3in]{./pdf_figs/micrometer2} +} +\subcaptionbox{Reading = 166~$\mu$m} { +\includegraphics[height=1.3in]{./pdf_figs/micrometer3} +} \caption{\label{fig3mich.fig}Micrometer readings. The coarse division equals to 100~$\mu$m, and smallest division on the rotary dial is 1~$\mu$m (same as 1 micron). The final measurements is the sum of two. } \end{figure} |