this is for holding javascript data
Ning Zhu edited Abstract.tex
over 8 years ago
Commit id: 704a5daff862c032fd008ec22f4b741dbdd74ad9
deletions | additions
diff --git a/Abstract.tex b/Abstract.tex
index b20a8a9..95453b5 100644
--- a/Abstract.tex
+++ b/Abstract.tex
...
\begin{abstract}
The quantization of energy states of neon and argon are measured and analyzed in the Franck-Hertz experiment. The
results of the Franck-Hertz experiment is consistent with the Bohr model. The main idea of the
Franck-Hertz Franck Hertz experiment is
to demonstrate that
the energy levels are quantized and discrete within atoms. \textbf{ADD SOMETHING} Franck-Hertz curves are linearly increasing curves but their minimas are not equally spaced due to the
mean free path dependence. transfer of energy during collisions. And this idea that an atom occupies one of the atom's "quantum energy levels" is consistent with Niel Bohr's model. Our experiment precisely illustrates the key concept of the Franck-Hertz Experiment. We found the discrete energy levels of neon to occur at $16.66 \pm 0.51$
eV; whereas, eV, which is consistent with the value recorded on NIST (16.62eV) within uncertainty. Whereas, for argon it occurs at
$10.7991 $10.80 \pm 0.02$
eV. eV, which is slightly smaller than the value recorded on NIST website (11.55eV).
\end{abstract}