1 files changed, 16 insertions, 15 deletions

diff --git a/docs/oom_user_guide.rst b/docs/oom_user_guide.rst
index 3a707e25ea..3212fd319d 100644
--- a/docs/oom_user_guide.rst
+++ b/docs/oom_user_guide.rst
@@ -444,23 +444,24 @@ the portal and then simply access now the new ssl-encrypted URL:
 
    | Alternatives Considered:
 
-   -  Kubernetes port forwarding was considered but discarded as it would require
-      the end user to run a script that opens up port forwarding tunnels to each of
-      the pods that provides a portal application widget.
+   -  Kubernetes port forwarding was considered but discarded as it would
+      require the end user to run a script that opens up port forwarding tunnels
+      to each of the pods that provides a portal application widget.
 
    -  Reverting to a VNC server similar to what was deployed in the Amsterdam
-      release was also considered but there were many issues with resolution, lack
-      of volume mount, /etc/hosts dynamic update, file upload that were a tall order
-      to solve in time for the Beijing release.
+      release was also considered but there were many issues with resolution,
+      lack of volume mount, /etc/hosts dynamic update, file upload that were
+      a tall order to solve in time for the Beijing release.
 
    Observations:
 
-   -  If you are not using floating IPs in your Kubernetes deployment and directly attaching
-      a public IP address (i.e. by using your public provider network) to your K8S Node
-      VMs' network interface, then the output of 'kubectl -n onap get services | grep "portal-app"'
+   -  If you are not using floating IPs in your Kubernetes deployment and
+      directly attaching a public IP address (i.e. by using your public provider
+      network) to your K8S Node VMs' network interface, then the output of
+      'kubectl -n onap get services | grep "portal-app"'
       will show your public IP instead of the private network's IP. Therefore,
-      you can grab this public IP directly (as compared to trying to find the floating
-      IP first) and map this IP in /etc/hosts.
+      you can grab this public IP directly (as compared to trying to find the
+      floating IP first) and map this IP in /etc/hosts.
 
 .. figure:: oomLogoV2-Monitor.png
    :align: right
@@ -569,7 +570,7 @@ Below is the example for the same::
 Here the Name column shows the RELEASE NAME, In our case we want to try the
 scale operation on cassandra, thus the RELEASE NAME would be dev-cassandra.
 
-Now we need to obtain the chart name for casssandra. Use the below
+Now we need to obtain the chart name for cassandra. Use the below
 command to get the chart name::
 
   > helm search cassandra
@@ -584,15 +585,15 @@ Below is the example for the same::
     local/sdc-cs            8.0.0                           ONAP Service Design and Creation Cassandra
 
 Here the Name column shows the chart name. As we want to try the scale
-operation for cassandra, thus the correponding chart name is local/cassandra
+operation for cassandra, thus the corresponding chart name is local/cassandra
 
 
 Now we have both the command's arguments, thus we can perform the
-scale opeartion for cassandra as follows::
+scale operation for cassandra as follows::
 
   > helm upgrade dev-cassandra local/cassandra --set replicaCount=3
 
-Using this command we can scale up or scale down the cassadra db instances.
+Using this command we can scale up or scale down the cassandra db instances.
 
 
 The ONAP components use Kubernetes provided facilities to build clustered,