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Both sides previous revision Previous revision Next revision | Previous revision | ||
184_projects:particle_accel [2023/09/26 19:10] – dmcpadden | 184_projects:particle_accel [2023/09/26 19:44] (current) – dmcpadden | ||
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< | < | ||
+ | display(background = color.white) | ||
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num_points = 10 | num_points = 10 | ||
num_rings = 11 | num_rings = 11 | ||
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Conceptual Questions: | Conceptual Questions: | ||
- | - What does it mean for a vector (like Electric Field) to be " | + | - (Part 1) What does it mean for a vector (like Electric Field) to be " |
- | - What would you expect the electric field to look like at the center of the ring? What about mid-ring? What about away from the ring? Draw these out on the whiteboard. | + | - (Part 1) What would you expect the electric field to look like for an observation point at the center of the ring? What about a ring of observation points aligned with the ring (z=0) but with a radius inside the ring of charge? What about a ring of observation points with some z value away from the ring of charge? Draw these out on the whiteboard. |
- | - Comment your code line-by-line and make sure everyone understands what each line is doing. | + | - (Part 1) Comment your code line-by-line and make sure everyone understands what each line is doing. |
- | - When you have multiple rings of charge, how do you get a constant electric field? | + | - (Part 2) When you have multiple rings of charge, how do you get a constant electric field? |
- | - What is a surface charge gradient? | + | - (Part 2) What is a surface charge gradient? |
- | - Why does this set up count as an " | + | - (Part 2) Why does this set up count as an " |