From 55968bc9e33d11f2fca082b3ebaef4ffd64373e8 Mon Sep 17 00:00:00 2001
From: Mark Meredith <mark.meredith@netl.doe.gov>
Date: Mon, 7 Dec 2020 16:52:04 -0500
Subject: [PATCH] spelling

---
 docs/webroot/gallery.html | 4 ++--
 1 file changed, 2 insertions(+), 2 deletions(-)

diff --git a/docs/webroot/gallery.html b/docs/webroot/gallery.html
index 1c22b7a..b0765c0 100644
--- a/docs/webroot/gallery.html
+++ b/docs/webroot/gallery.html
@@ -115,7 +115,7 @@ END TEMPLATE-->
             of a single bubble into an incipiently fluidized bed. Here, the 50 m/s jet is turned on
             for 150 ms causing a single large bubble to form, rise through the 3 mm particle bed and
             erupt a the surface. <a href="https://ovito.org">Ovito</a> animation shows particles in
-            the center 10 mm thick slice of the 190 mm diameter bed, colored by their vercial
+            the center 10 mm thick slice of the 190 mm diameter bed, colored by their vertical
             velocity ranging from -0.3 m/s (black) to 1.0 m/s (white).
             Simulation models 260K particles with MFiX-Exa 19.08 using 32 CPU cores.
             <p><p>
@@ -136,7 +136,7 @@ END TEMPLATE-->
         </header>
         <div class="row 50% uniform">
           <div class="8u 12u(small)">
-            The "granular" variant of the classical RT instability superimposes an assemply of
+            The "granular" variant of the classical RT instability superimposes an assembly of
             1.12M random loose packed particles over air. The instability finger/bubble pattern
             which reaches a (statistical) equilibrium between coarsening via finger merging and
             refinement via bubble splitting. Black and white <a href="https://ovito.org">ovito</a>
-- 
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