184_notes:examples:week10_current_ring

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184_notes:examples:week10_current_ring [2021/07/07 17:42] schram45184_notes:examples:week10_current_ring [2021/07/07 17:52] (current) – [Solution] schram45
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 {{ 184_notes:10_ring_with_b.png?300 |Ring of Current, With Magnetic Field at Center}} {{ 184_notes:10_ring_with_b.png?300 |Ring of Current, With Magnetic Field at Center}}
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 +Since the observation point is in the same plane as the ring and at the center, applying RHR to a few different points on the ring will always yield a result in the +z direction at our observation point. This aligns with our answer, which is great. We also would expect the B-field to decrease as the ring got bigger (R increases), as each chunk of current carrying wire would be further away, and increase as it got smaller, as each chunk of current carrying wire would be closer to our observation point. Similarly, we would expect the B-field to increase as the current increases as you would have charges moving faster producing a stronger B-field. These are all things reflected by our equation, so we should be happy with our solution.
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  • Last modified: 2021/07/07 17:42
  • by schram45