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184_projects:sticky_stuff_24 [2024/01/05 21:11] – tdeyoung | 184_projects:sticky_stuff_24 [2024/01/09 16:17] – dmcpadden | ||
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===== Project: StickyStuff and the Dust Particle ===== | ===== Project: StickyStuff and the Dust Particle ===== | ||
+ | |||
+ | ==== Kick Off Questions ==== | ||
+ | - When setting up an integral for a line of charge, what are the general steps you need to take? | ||
+ | - What is dQ in the integral set up? Why do we rewrite dQ so it is in terms of dx? | ||
+ | - How did you pick your bounds for your integral? | ||
+ | - Where does the variable (x, y, or z) show up in your integral set up? | ||
+ | |||
+ | ==== Main Problem ==== | ||
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- | Conceptual | + | ==== Wrap Up Questions |
- What is charge affinity? | - What is charge affinity? | ||
- | - What is dQ in the integral set up? Why do we rewrite dQ so it is in terms of dx? | ||
- How do you rewrite your separation vector? What is r_source? What is r_obs? | - How do you rewrite your separation vector? What is r_source? What is r_obs? | ||
- In the separation vector, should you have x as a variable or dx? Why? | - In the separation vector, should you have x as a variable or dx? Why? | ||
- | - How did you pick your bounds for your integral? | ||
- How do you integrate a vector? What steps would you follow? | - How do you integrate a vector? What steps would you follow? | ||
- How did you use superposition today? Where is superposition represented in your equations? | - How did you use superposition today? Where is superposition represented in your equations? |