Commit 36551297 authored by Olivier's avatar Olivier

Slides 2: fix section title + compiling errors

parent e536a9d7
......@@ -119,9 +119,9 @@
\begin{IEEEeqnarray}{rCl}
0 & = & \Sigma \left[\rho V_\perp A \right]_\text{incoming} + \Sigma \left[\rho V_\perp A \right]_\text{outgoing} \nonumber\\\label{eq_mass_oned}
\end{IEEEeqnarray}
\begin{equationterms}
\item For steady flow through a considered volume.
\end{equationterms}
\small
For steady flow through a considered volume.
\end{mdframed}
\end{frame}
......@@ -240,10 +240,10 @@
\vec F_\text{net on fluid} & = & \Sigma \left[\rho V_\perp A \vec V\right]_\text{incoming} \nonumber\\
&& + \Sigma \left[\rho V_\perp A \vec V\right]_\text{outgoing}\label{eq_linearmom_oned}
\end{IEEEeqnarray}
\begin{equationterms}
\item For steady flow through a considered volume,
\item where $V_\perp$ is negative inwards, positive outwards.
\end{equationterms}
{\small
For steady flow through a considered volume,\\
where $V_\perp$ is negative inwards, positive outwards.
}
\end{mdframed}
\end{frame}
......@@ -308,7 +308,7 @@
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
\sectionwithsubtitle{Energy conservation}{this ain’t Star Wars}
\sectionwithsubtitle{Balance of energy}{this ain’t Star Wars}
\begin{frame}
\begin{IEEEeqnarray*}{rCl}
......@@ -379,10 +379,9 @@
\dot Q_{\net} + \dot W_\text{shaft, net} &=& & \Sigma \left[\dot m \left(i + \frac{p}{\rho} + \frac{1}{2} V^2 + g z \right) \right]_\inn \nonumber\\
&& +& \Sigma \left[\dot m \left(i + \frac{p}{\rho} + \frac{1}{2} V^2 + g z \right) \right]_\out \nonumber\\ \label{eq_sfee}
\end{IEEEeqnarray}
\begin{equationterms}
\item For steady flow through a considered volume,
\item where $\dot m = \rho V_\perp A$ is negative inwards, positive outwards.
\end{equationterms}
\small
For steady flow through a considered volume,
where $\dot m = \rho V_\perp A$ is negative inwards, positive outwards.
\end{mdframed}
\end{frame}
......@@ -449,10 +448,9 @@
\dot Q_{\net} + \dot W_\text{shaft, net} &=& & \Sigma \left[\dot m \left(i + \frac{p}{\rho} + \frac{1}{2} V^2 + g z \right) \right]_\inn \nonumber\\
&& +& \Sigma \left[\dot m \left(i + \frac{p}{\rho} + \frac{1}{2} V^2 + g z \right) \right]_\out \nonumber\\
\end{IEEEeqnarray*}
\begin{equationterms}
\item For steady flow through a considered volume,
\item where $\dot m = \rho V_\perp A$ is negative inwards, positive outwards.
\end{equationterms}
\small
For steady flow through a considered volume,
where $\dot m = \rho V_\perp A$ is negative inwards, positive outwards.
\end{mdframed}
\end{frame}
......
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