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course_planning:183_projects:s23_week_3_geostationary_orbit [2023/01/25 20:53] – hallstein | course_planning:183_projects:s23_week_3_geostationary_orbit [2023/01/27 15:47] – hallstein | ||
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<WRAP tip> | <WRAP tip> | ||
- | This programming problem requires students to put in the correct initial conditions from Tuesday, but also to model the gravitational force appropriately (i.e., translate the equation to code). This is tough for some groups because | + | This programming problem requires students to put in the correct initial conditions from Tuesday, but also to model the gravitational force appropriately (i.e., translate the equation to code). This is tough for some groups because vector calculations can be challenging. |
There' | There' | ||
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</ | </ | ||
- | First we want to input our radius of geostationary orbit and the necessary velocity, as well as any constants: | + | <WRAP tip> |
+ | == Tutor Questions == | ||
+ | * **Question: | ||
+ | * **Expected Answer: | ||
+ | * **Question: | ||
+ | * **Expected Answer:** It points from the center of Earth to the satellite. | ||
+ | * **Question: | ||
+ | * **Expected Answer:** The force points toward the center of Earth. | ||
+ | |||
+ | * **Question: | ||
+ | * **Expected Answer:** $\vec{r} = \left | \vec{r} \right | \cdot \hat{r}$ | ||
+ | |||
+ | </ | ||
+ | |||
+ | |||
+ | We want to input our radius of a geostationary orbit and the necessary velocity, as well as any constants: | ||
<code Python> | <code Python> | ||
#Objects | #Objects | ||
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Next, we want to incorporate the force due to gravity. | Next, we want to incorporate the force due to gravity. | ||
+ | <WRAP tip> | ||
+ | == Tip == | ||
+ | * **Question: | ||
+ | </ | ||
+ | |||
<code Python> | <code Python> | ||
# | # |