diff --git a/README.md b/README.md
index acffa1e..712601d 100644
--- a/README.md
+++ b/README.md
@@ -1,16 +1,17 @@
# Orbit simulator
Python program using the 2nd law of Newton to simulate in real time gravitational interactions between two or more celestial bodies with a decicated UI. This program is our work for our informatic class final project.
## Operating process
-For each frame, the system compute the position of each object in the next frame considering a movement vector to which the variation of the speed vector has been added considering the following formulas :
+For each frame, the system computes the position of each object in the next frame considering a movement vector to which the variation of the speed vector has been added considering the following formulas :
![Newton 2nd Law](https://wikimedia.org/api/rest_v1/media/math/render/svg/ce5a34efdcbe454a69e8b879e0005c809b0439ee)
![acceleration formula](https://wikimedia.org/api/rest_v1/media/math/render/svg/941bc4c58dbc6f6716ce1d0024ff29e2ee82a0c9)
## Installation
### Windows
This guide was tested on Windows 10
-1. Install the latest release [here](https://github.com/jupiter2653/orbit-simulator/releases/latest) or clone this repository with git. *If you want to, you can also clone this repository but the content might not be production ready*
+1. Install the latest release [here](https://github.com/jupiter2653/orbit-simulator/releases/latest).
+*If you want to, you can also clone this repository but the content might not be production ready.*
2. Extract all the files from the compressed folder.
-3. Install the dependencies by typing ``py -m pip install -r requirements.txt`` in the directory in which you exctracted the files
+3. Install the dependencies by typing ``py -m pip install -r requirements.txt`` in the directory in which you exctracted the files.
4. Launch ``main.py``.
5. Enjoy !