diff --git a/docs/source/Fabric-FAQ.rst b/docs/source/Fabric-FAQ.rst
index d808bc9ae5e..b03fa15bbad 100644
--- a/docs/source/Fabric-FAQ.rst
+++ b/docs/source/Fabric-FAQ.rst
@@ -1,5 +1,5 @@
-Hyperledger Fabric FAQs
-=======================
+Hyperledger Fabric FAQ
+======================
 
 Endorsement
 -----------
@@ -24,32 +24,34 @@ Security & Access Control
 Q. How do I ensure data privacy?
 
 A. There are various aspects to data privacy.
-First, you can segregate your network into channels, where each channel represents a subset of
-participants that are authorized to see the data for the chaincodes that are deployed
-to that channel.
-Second, within a channel you can restrict the input data to chaincode to the set of
-endorsers only, by using visibility settings. The visibility setting will determine
-whether input and output chaincode data is included in the submitted transaction,  versus just
-output data.
+First, you can segregate your network into channels, where each channel
+represents a subset of participants that are authorized to see the data
+for the chaincodes that are deployed to that channel.
+Second, within a channel you can restrict the input data to chaincode to the
+set of endorsers only, by using visibility settings. The visibility setting
+will determine whether input and output chaincode data is included in the
+submitted transaction,  versus just output data.
 Third, you can hash or encrypt the data before calling chaincode. If you hash
-the data then you will need a way to share the source data outside of fabric. If you encrypt
-the data then you will need a way to share the decryption keys outside of fabric.
-Fourth, you can restrict data access to certain roles in your organization, by building
-access control into the chaincode logic.
-Fifth, ledger data at rest can be encrypted via file system encryption on the peer, and data in
-transit is encrypted via TLS.
+the data then you will need to provide a means to share the source data.
+If you encrypt the data then you will need to provide a means to share the
+decryption keys.
+Fourth, you can restrict data access to certain roles in your organization, by
+building access control into the chaincode logic.
+Fifth, ledger data at rest can be encrypted via file system encryption on
+the peer, and data in-transit is encrypted via TLS.
 
 Q. Do the orderers see the transaction data?
 
 A. No, the orderers only order transactions, they do not open the transactions.
-If you do not want the data to go through the orderers at all, and you are only concerned
-about the input data, then you can use visibility settings. The visibility setting will determine
-whether input and output chaincode data is included in the submitted transaction,  versus just
-output data. Therefore the input data can be private to the endorsers only.
-If you do not want the orderers to see chaincode output, then you can hash or encrypt the data
-before calling chaincode. If you hash the data then you will need a way to share the source data
-outside of fabric. If you encrypt the data then you will need a way to share the decryption keys
-outside of fabric.
+If you do not want the data to go through the orderers at all, and you are only
+concerned about the input data, then you can use visibility settings. The
+visibility setting will determine whether input and output chaincode data is
+included in the submitted transaction,  versus just output data. Therefore,
+the input data can be private to the endorsers only.
+If you do not want the orderers to see chaincode output, then you can hash or
+encrypt the data before calling chaincode. If you hash the data then you will
+need to provide a meansto share the source data. If you encrypt the data then
+you will need to provide a means to share the decryption keys.
 
 Application-side Programming Model
 ----------------------------------
@@ -58,26 +60,30 @@ Application-side Programming Model
 
 Q. How do application clients know the outcome of a transaction?
 
-A. The transaction simulation results are returned to the client by the endorser in the proposal
-response.  If there are multiple endorsers, the client can check that the responses are all the
-same, and submit the results and endorsements for ordering and commitment.
-Ultimately the committing peers will validate or invalidate the transaction, and the client becomes
-aware of the outcome via an event, that the SDK makes available to the application client.
+A. The transaction simulation results are returned to the client by the
+endorser in the proposal response.  If there are multiple endorsers, the
+client can check that the responses are all the same, and submit the results
+and endorsements for ordering and commitment. Ultimately the committing peers
+will validate or invalidate the transaction, and the client becomes
+aware of the outcome via an event, that the SDK makes available to the
+application client.
 
 **Ledger queries**:
 
 Q. How do I query the ledger data?
 
-Within chaincode you can query based on keys. Keys can be queried by range, and composite keys can
-be modeled to enable equivalence queries against multiple parameters. For example a composite
-key of (owner,asset_id) can be used to query all assets owned by a certain entity. These key-based
-queries can be used for read-only queries against the ledger, as well as in transactions that
+A. Within chaincode you can query based on keys. Keys can be queried by range,
+and composite keys can be modeled to enable equivalence queries against multiple
+parameters. For example a composite key of (owner,asset_id) can be used to
+query all assets owned by a certain entity. These key-based queries can be used
+for read-only queries against the ledger, as well as in transactions that
 update the ledger.
 
-If you model asset data as JSON in chaincode and use CouchDB as the state database, you can also
-perform complex rich queries against the chaincode data values, using the CouchDB JSON query
-language within chaincode. The application client can perform read-only queries, but these
-responses are not typically submitted as part of transactions to the ordering service.
+If you model asset data as JSON in chaincode and use CouchDB as the state
+database, you can also perform complex rich queries against the chaincode
+data values, using the CouchDB JSON query language within chaincode. The
+application client can perform read-only queries, but these responses are
+not typically submitted as part of transactions to the ordering service.
 
 Q. How do I query the historical data to understand data provenance?
 
@@ -87,34 +93,34 @@ values for a key.
 Q. How to guarantee the query result is correct, especially when the peer being
 queried may be recovering and catching up on block processing?
 
-A. The client can query multiple peers, compare their block heights, compare their query results,
-and favor the peers at the higher block heights.
+A. The client can query multiple peers, compare their block heights, compare
+their query results, and favor the peers at the higher block heights.
 
 Chaincode (Smart Contracts and Digital Assets)
 ----------------------------------------------
 
-* Does the fabric implementation support smart contract logic?
+Q. Does Hyperledger Fabric support smart contract logic?
 
-Yes. Chaincode is the fabric’s interpretation of the smart contract
-method/algorithm, with additional features.
+A. Yes. We call this feature :ref:`chaincode`. It is our interpretation of the
+smart contract method/algorithm, with additional features.
 
 A chaincode is programmatic code deployed on the network, where it is
 executed and validated by chain validators together during the consensus
 process. Developers can use chaincodes to develop business contracts,
 asset definitions, and collectively-managed decentralized applications.
 
-* How do I create a business contract using the fabric?
+Q. How do I create a business contract?
 
-There are generally two ways to develop business contracts: the first way is to
-code individual contracts into standalone instances of chaincode; the
+A. There are generally two ways to develop business contracts: the first way is
+to code individual contracts into standalone instances of chaincode; the
 second way, and probably the more efficient way, is to use chaincode to
 create decentralized applications that manage the life cycle of one or
 multiple types of business contracts, and let end users instantiate
 instances of contracts within these applications.
 
-* How do I create assets using the fabric?
+Q. How do I create assets?
 
-Users can use chaincode (for business rules) and membership service (for digital tokens) to
+A. Users can use chaincode (for business rules) and membership service (for digital tokens) to
 design assets, as well as the logic that manages them.
 
 There are two popular approaches to defining assets in most blockchain
@@ -123,42 +129,41 @@ into past transaction records; and the account model, where account
 balances are kept in state storage space on the ledger.
 
 Each approach carries its own benefits and drawbacks. This blockchain
-fabric does not advocate either one over the other. Instead, one of our
+technology does not advocate either one over the other. Instead, one of our
 first requirements was to ensure that both approaches can be easily
-implemented with tools available in the fabric.
+implemented.
 
-* Which languages are supported for writing chaincode?
+Q. Which languages are supported for writing chaincode?
 
-Chaincode can be written in any programming language and executed in containers
-inside the fabric context layer. We are also looking into developing a
-templating language (such as Apache Velocity) that can either get
-compiled into chaincode or have its interpreter embedded into a
-chaincode container.
+A. Chaincode can be written in any programming language and executed in
+containers. We are also looking into developing a templating language (such
+as Apache Velocity) that can either be compiled into chaincode or have
+its interpreter embedded into a chaincode container.
 
-The fabric's first fully supported chaincode language is Golang, and
+The first fully supported chaincode language is Golang, and
 support for JavaScript and Java is planned for 2016. Support for
-additional languages and the development of a fabric-specific templating
-language have been discussed, and more details will be released in the
-near future.
+additional languages and the development of a Hyperledger Fabric-specific
+templating language have been discussed, and more details will be released in
+the near future.
 
-* Does the fabric have native currency?
+Q. Does the Hyperledger Fabric have native currency?
 
-No. However, if you really need a native currency for your chain network, you can develop your own
-native currency with chaincode. One common attribute of native currency
-is that some amount will get transacted (the chaincode defining that
-currency will get called) every time a transaction is processed on its
-chain.
+A. No. However, if you really need a native currency for your chain network,
+you can develop your own native currency with chaincode. One common attribute
+of native currency is that some amount will get transacted (the chaincode
+defining that currency will get called) every time a transaction is processed
+on its chain.
 
 Identity Management (Membership Service)
 ----------------------------------------
 
-* What is unique about the fabric's Membership Service module?
+Q. What is unique about the Hyperledger Fabric's membership service module?
 
-One of the things that makes the Membership Service module stand out from
+A. One of the things that makes the membership service module stand out from
 the pack is our implementation of the latest advances in cryptography.
 
-In addition to ensuring private, auditable transactions, our Membership
-Service module introduces the concept of enrollment and transaction
+In addition to ensuring private, auditable transactions, our membership
+service module introduces the concept of enrollment and transaction
 certificates. This innovation ensures that only verified owners can
 create asset tokens, allowing an infinite number of transaction
 certificates to be issued through parent enrollment certificates while
@@ -169,13 +174,13 @@ Issuers also have the ability revoke transaction certificates or
 designate them to expire within a certain timeframe, allowing greater
 control over the asset tokens they have issued.
 
-Like most other modules on Fabric, you can always replace the
+Like most other modules, you can always replace the
 default module with another membership service option should the need
 arise.
 
-* Does its Membership Service make Fabric a centralized solution?
+Q. Does its Membership Service make Fabric a centralized solution?
 
-No. The only role of the Membership Service module is to issue digital
+A. No. The only role of the Membership Service module is to issue digital
 certificates to validated entities that want to participate in the
 network. It does not execute transactions nor is it aware of how or when
 these certificates are used in any particular network.