deletions | additions       diff --git a/sectionResults_Eight.tex b/sectionResults_Eight.tex  index a98d5b5..b942d46 100644  --- a/sectionResults_Eight.tex  +++ b/sectionResults_Eight.tex 
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Z_{rot} &=& .8556\; T_{ex}-0.10\\  F(T) &=& \frac{1}{e^{h\nu/k_BT}-1}.\\  \end{eqnarray*}  where $\epsilon_0$ is the vacuum permittivity, $\mu_{el}$ is the permanent electric dipole moment, S is the line strength, Z$_[rot}$ is the rotational partition function, g$_K$ is the K-level degeneracy, g$_I$ is the reduced nuclear spin degeneracy, E$_u$ is the energy of the upper-transition state, T$_{ex}$ is the excitation temperature and T$_{bg}$ is the background temperature.  The dipole moment line strength ($\mu^2_{el}$ S) is taken from the JPL spectral line catalog \citep{PICKETT1998}. The partition function (Z$_{rot}$) is a linear fit to JPL data between T=37 to 75 K. T$_{bg}$ was taken to be the cosmic microwave background temperature, 2.725 K. The uncertainty in the fit amplitutdes and derived column densities is dominated by our flux-calibration uncertainty. Since the relationships are linear, we estimate the uncertainty in both as 20\%.