deletions | additions       diff --git a/subsubsection_Finding_k_at_Room__.tex b/subsubsection_Finding_k_at_Room__.tex  index 97e9ef4..368a480 100644  --- a/subsubsection_Finding_k_at_Room__.tex  +++ b/subsubsection_Finding_k_at_Room__.tex 
...
\begin{equation}  \textup{Rate} =k[A]^n[B]^n,  \end{equation}  the gradient of the line should be equal to the value of k. The gradient of the line, and thus the value of k, was found to be 8.98$\times$10\textsuperscript{-1} mol\textsuperscript{-1}dm\textsuperscript{3}s\textsuperscript{-1}. The line did not go through all of the points, though was a good average of them. This value can only be determined by experimental analysis, so there is no true value to compare it against. The linear relationship shows that k is constant across all the different experiments, which is consistent with what was expected. expected, as k is the rate constant; it should not be affected by changes in concentration, only changes in temperature.