diff --git a/content/contributing/contribute-code.md b/content/contributing/contribute-code.md
index 002ffeb728..6193d720f9 100644
--- a/content/contributing/contribute-code.md
+++ b/content/contributing/contribute-code.md
@@ -21,9 +21,8 @@ The [**Community Standards Drafts**](https://github.com/xrp-community/standards-
You can find various XRP Ledger-related projects under these and other GitHub organizations:
+- [XRP Ledger Foundation](https://github.com/XRPLF/)
- [Ripple](https://github.com/ripple/)
-- [RippleX (formerly Xpring)](https://github.com/xpring-eng/)
-- [XRP Community](https://github.com/xrp-community/)
- [XRPL Labs](https://github.com/XRPL-Labs/)
Be sure to look at each repository's license and contributing guidelines before contributing to that repository.
diff --git a/content/tutorials/get-started/monitor-incoming-payments-with-websocket.md b/content/tutorials/get-started/monitor-incoming-payments-with-websocket.md
index 1dae245e13..68997b4ab5 100644
--- a/content/tutorials/get-started/monitor-incoming-payments-with-websocket.md
+++ b/content/tutorials/get-started/monitor-incoming-payments-with-websocket.md
@@ -21,9 +21,8 @@ WebSocket follows a model where the client and server establish one connection,
- You need a stable internet connection and access to a `rippled` server. The embedded examples connect to Ripple's pool of public servers. If you [run your own `rippled` server](install-rippled.html), you can also connect to that server locally.
- To properly handle XRP values without rounding errors, you need access to a number type that can do math on 64-bit unsigned integers. The examples in this tutorial use [big.js](https://github.com/MikeMcl/big.js/). If you are working with [issued currencies](issued-currencies.html), you need even more precision. For more information, see [Currency Precision](currency-formats.html#xrp-precision).
-
+
-
{% set n = cycler(* range(1,99)) %}