diff --git a/README.md b/README.md
index 85e01ecafede3efb56869c62df34d64c36ad1e81..7adb0afa4d2847720c769ac42ca536b645d2bdf7 100644
--- a/README.md
+++ b/README.md
@@ -10,11 +10,11 @@ This design uses a mix of flat parts, and 3D printed parts.
 
 The flat parts can be laser cut or waterjet out of a material 3-5mm thick. A file containing all the parts can be found [here](./design/cut/), and fits on an A4 page:
 
-<img src="img/pate_cut.png" width=80%>
+<img src="img/plate_cut.png" width=80%>
 
 The files to 3D print can be found [here](./design/print/), and fit on a standard Prusa bed. The recommended material for the print is **PETG**, though PLA can be used if no other option is available. The main issue with PLA is that is will creep overtime, offering no long term guarantees on a mechanical part.
 
-<img src="img/pate_print.png" width=80%>
+<img src="img/plate_print.png" width=80%>
 
 Once the files are ready, gather all the hardware you'll need and follow the assembly steps below.
 
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