Spell fixes

docs/getting-started-guides/ubuntu/calico.md

@@ -80,7 +80,7 @@ The master requires the root CA public key, `ca.pem`; the apiserver certificate,
 
 Calico needs its own etcd cluster to store its state.  In this guide we install a single-node cluster on the master server.
 
-> Note: In a production deployment we recommend running a distributed etcd cluster for redundancy. In this guide, we use a single etcd for simplicitly.
+> Note: In a production deployment we recommend running a distributed etcd cluster for redundancy. In this guide, we use a single etcd for simplicity.
 
 1.  Download the template manifest file:
 

docs/getting-started-guides/ubuntu/decommissioning.md

@@ -13,7 +13,7 @@ This page assumes you have a working Juju deployed cluster.
 {% endcapture %}
 
 {% capture steps %}
-It is recommended to deploy individual Kubernetes clusters in their own models, so that there is a clean seperation between environments. To remove a cluster first find out which model it's in with `juju list-models`. The controller reserves an `admin` model for itself. If you have chosen to not name your model it might show up as `default`. 
+It is recommended to deploy individual Kubernetes clusters in their own models, so that there is a clean separation between environments. To remove a cluster first find out which model it's in with `juju list-models`. The controller reserves an `admin` model for itself. If you have chosen to not name your model it might show up as `default`. 
 
 ```
 $ juju list-models

docs/getting-started-guides/ubuntu/glossary.md

@@ -16,7 +16,7 @@ This page assumes you have a working Juju deployed cluster.
 
 controller - The management node of a cloud environment. Typically you have one controller per cloud region, or more in HA environments. The controller is responsible for managing all subsequent models in a given environment. It contains the Juju API server and its underlying database. 
 
-model - A collection of charms and their relationships that define a deployment. This includes machines and units. A controller can host multiple models. It is recommended to seperate Kubernetes clusters into individual models for management and isolation reasons.  
+model - A collection of charms and their relationships that define a deployment. This includes machines and units. A controller can host multiple models. It is recommended to separate Kubernetes clusters into individual models for management and isolation reasons.
 
 charm - The definition of a service, including its metadata, dependencies with other services, required packages, and application management logic. It contains all the operational knowledge of deploying a Kubernetes cluster. Included charm examples are  `kubernetes-core`, `easy-rsa`, `kibana`, and `etcd`. 
 
@@ -25,4 +25,4 @@ unit - A given instance of a service. These may or may not use up a whole machin
 machine - A physical node, these can either be bare metal nodes, or virtual machines provided by a cloud.
 {% endcapture %}
 
-{% include templates/task.md %}
+{% include templates/task.md %}

docs/getting-started-guides/ubuntu/local.md

@@ -49,7 +49,7 @@ Now you're ready to install conjure-up and deploy Kubernetes.
     
 ```
 
-Note: During this set up phase cojure-up will ask you to "Setup an ipv6 subnet" with LXD, ensure you answer NO. ipv6 with Juju/LXD is currently unsupported.
+Note: During this set up phase conjure-up will ask you to "Setup an ipv6 subnet" with LXD, ensure you answer NO. ipv6 with Juju/LXD is currently unsupported.
 
 ### Walkthrough
 

docs/getting-started-guides/ubuntu/monitoring.md

@@ -28,7 +28,7 @@ Configure Datadog with your api-key, found in the [Datadog dashboard](). Replace
 juju configure datadog api-key=XXXX
 ```
 
-Finally, attach `datadog` to all applications you wish to montior. For example, kubernetes-master, kubernetes-worker, and etcd:
+Finally, attach `datadog` to all applications you wish to monitor. For example, kubernetes-master, kubernetes-worker, and etcd:
 
 ```
 juju add-relation datadog kubernetes-worker
@@ -74,7 +74,7 @@ juju add-relation kubernetes-worker filebeat
 
 ### Existing ElasticSearch cluster
 
-In the event an ElasticSearch cluster already exists, the following can be used to connect and leverage it instead of creating a new, seprate, cluster. First deploy the two beats, filebeat and topbeat
+In the event an ElasticSearch cluster already exists, the following can be used to connect and leverage it instead of creating a new, separate, cluster. First deploy the two beats, filebeat and topbeat
 
 ```
 juju deploy filebeat
@@ -122,7 +122,7 @@ juju add-relation nrpe kubeapi-load-balancer
 
 ### Existing install of Nagios
 
-If you already have an exisiting Nagios installation, the `nrpe-external-master` charm can be used instead. This will allow you to supply configuration options that map your exisiting external Nagios installation to NRPE. Replace `255.255.255.255` with the IP address of the nagios instance.
+If you already have an existing Nagios installation, the `nrpe-external-master` charm can be used instead. This will allow you to supply configuration options that map your existing external Nagios installation to NRPE. Replace `255.255.255.255` with the IP address of the nagios instance.
 
 ```
 juju deploy nrpe-external-master

docs/getting-started-guides/ubuntu/networking.md

@@ -45,7 +45,7 @@ $ route | grep default | head -n 1 | awk {'print $8'}
 establishing networking setup with etcd. Ensure this network range is not active
 on layers 2/3 you're deploying to, as it will cause collisions and odd behavior
 if care is not taken when selecting a good CIDR range to assign to flannel. It's
-also good practice to ensure you alot yourself a large enough IP range to support
+also good practice to ensure you allot yourself a large enough IP range to support
 how large your cluster will potentially scale.  Class A IP ranges with /24 are
 a good option.
 {% endcapture %}

docs/getting-started-guides/ubuntu/storage.md

@@ -83,8 +83,8 @@ test   50M          RWO       Available                              10s
 ```
 
 To consume these Persistent Volumes, your pods will need an associated
-Persistant Volume Claim with them, and is outside the scope of this README. See the
-[Persistant Volumes](http://kubernetes.io/docs/user-guide/persistent-volumes/)
+Persistent Volume Claim with them, and is outside the scope of this README. See the
+[Persistent Volumes](http://kubernetes.io/docs/user-guide/persistent-volumes/)
 documentation for more information.
 {% endcapture %}
 

docs/getting-started-guides/ubuntu/troubleshooting.md

@@ -42,9 +42,9 @@ Machine  State    DNS            Inst id              Series  AZ
 
 In this example we can glean some information. The `Workload` column will show the status of a given service. The `Message` section will show you the health of a given service in the cluster. During deployment and maintenance these workload statuses will update to reflect what a given node is doing. For example the workload my say `maintenance` while message will describe this maintenance as `Installing docker`.
 
-During normal oprtation the Workload should read `active`, the Agent column (which reflects what the Juju agent is doing) should read `idle`, and the messages will either say `Ready` or another descriptive term. `juju status --color` will also return all green results when a cluster's deployment is healthy. 
+During normal operation the Workload should read `active`, the Agent column (which reflects what the Juju agent is doing) should read `idle`, and the messages will either say `Ready` or another descriptive term. `juju status --color` will also return all green results when a cluster's deployment is healthy. 
 
-Status can become unweildly for large clusters, it is then recommended to check status on individual services, for example to check the status on the workers only:
+Status can become unwieldy for large clusters, it is then recommended to check status on individual services, for example to check the status on the workers only:
 
     juju status kubernetes-workers