From 2e6250935759a6580c1b09366be77c8335fda3ea Mon Sep 17 00:00:00 2001
From: Edwin Lee <leeed2001@gmail.com>
Date: Mon, 31 Jul 2017 07:53:55 -0500
Subject: [PATCH] Fix subscripting

---
 .../demand-controlled-ventilation.tex                         | 4 ++--
 1 file changed, 2 insertions(+), 2 deletions(-)

diff --git a/doc/engineering-reference/src/simulation-models-encyclopedic-reference-002/demand-controlled-ventilation.tex b/doc/engineering-reference/src/simulation-models-encyclopedic-reference-002/demand-controlled-ventilation.tex
index 8dfe3b98bcf..347443b0656 100644
--- a/doc/engineering-reference/src/simulation-models-encyclopedic-reference-002/demand-controlled-ventilation.tex
+++ b/doc/engineering-reference/src/simulation-models-encyclopedic-reference-002/demand-controlled-ventilation.tex
@@ -292,7 +292,7 @@ \subsection{Proportional Control}\label{proportional-control}
 
 if ProportionalControlBasedOnDesignOARate is specified, the required intake flow rate will be revised as:
 
- \begin{equation} {V{ot - design,i}} = \frac{Design Outdoor Air Flow Rate_i} {E_i} \end{equation}
+ \begin{equation} {V_{ot - design,i}} = \frac{Design Outdoor Air Flow Rate_i} {E_i} \end{equation}
 
 The Design Outdoor Air Flow Rate is determined in the DesignSpecification:OutdoorAir object. 
 
@@ -304,7 +304,7 @@ \subsection{Proportional Control}\label{proportional-control}
 
 if ProportionalControlBasedOnDesignOARate is specified, the required intake flow rate will be revised as:
 
- \begin{equation} {V{ot - min,i}} = \frac{ {Design Outdoor Air Flow Rate_i} \times {SchedPropMin_i} } {E_i} \end{equation}
+ \begin{equation} {V_{ot - min,i}} = \frac{ {Design Outdoor Air Flow Rate_i} \times {SchedPropMin_i} } {E_i} \end{equation}
 
 
 3)~~~The target indoor CO\(_{2}\) concentration at \({V_{ot - design,i}}\)