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--- course_planning:183_projects:s23_week_3_geostationary_orbit [2023/01/25 20:10] – hallstein
+++ course_planning:183_projects:s23_week_3_geostationary_orbit [2023/01/25 20:14] – hallstein
@@ Line 198: / Line 198: @@
  * **Question:**  How can you prove that the orbit is actually circular?
-  * **Expected Answer:**
+  * **Expected Answer:**  Aside from just eyeballing it, we can add in a graph of the distance from the center of Earth!
-Aside from just eyeballing it, we can add in a graph of the distance from the center of Earth!
 Part C includes adding this graph:
@@ Line 216: / Line 215: @@
   * Groups should have developed a working code that models any gravitational orbit around the Earth and be able to explain what and how they did it.
-  * For groups that get through this part (it's tough for many groups), they should check that the orbit is circular and explain that and they should add arrows to represent different physical quantities (i.e., momentum of the satellite, etc.).
+  * For groups that get through this part (it's tough for many groups), they should check that the orbit is circular and explain that and they should add arrows to represent different physical quantities (i.e., the momentum of the satellite, etc.).
 </WRAP>