Fix more typos in examples

examples/USER/atc/thermal/in.bar1d

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests heat conducting into and out of the MD region.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at 40.
+# temperature is initially 20 everywhere and the left boundary BC is fixed at 40.
 # The result should show heat diffusing through the FEM to the MD and back out 
 # to the FEM on the right.  Insufficient time is captured to reach the linear 
 # steady state, but heat crossing both boundaries should be observed.

examples/USER/atc/thermal/in.bar1d_all_atoms

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests thermostats applied in all atom simulations.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing both boundaries should be observed.

examples/USER/atc/thermal/in.bar1d_combined

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests heat conducting into an MD region at a fixed temperature at one end.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing the boundaries should be observed,

examples/USER/atc/thermal/in.bar1d_flux

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests heat conducting into and out of the MD region.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing both boundaries should be observed.

examples/USER/atc/thermal/in.bar1d_frac_step

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests heat conducting into and out of the MD region.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing both boundaries should be observed.

examples/USER/atc/thermal/in.bar1d_hoover

@@ -1,6 +1,6 @@
 # AtC Thermal Coupling
 # This benchmark tests thermostats applied in all atom simulations.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing both boundaries should be observed.

examples/USER/atc/thermal/in.bar1d_interpolate

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests heat conducting into and out of the MD region.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing both boundaries should be observed.

examples/USER/atc/thermal/in.bar1d_lumped

@@ -1,6 +1,6 @@
 #AtC Thermal Coupling
 # This benchmark tests heat conducting into and out of the MD region.  The
-# temperature is intially 20 everywhere and the left boundary BC is fixed at
+# temperature is initially 20 everywhere and the left boundary BC is fixed at
 # 40.# The result should show heat diffusing through the FEM to the MD and back
 # out # to the FEM on the right.  Insufficient time is captured to reach the
 # linear # steady state, but heat crossing both boundaries should be observed.