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| 184_notes:gauss_ex [2017/09/19 14:49] – [Example] tallpaul | 184_notes:gauss_ex [2017/09/22 15:49] – dmcpadden |
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| At this point, we have talked about how to find the electric flux through [[184_notes:e_flux|flat surfaces]] and through [[184_notes:eflux_curved|curved surfaces]] as well how to find the [[184_notes:q_enc|enclosed charge using charge density]]. These notes will go through two examples of how we find the electric field at a single point using electric flux, enclosed charge and symmetry arguments (Gauss's Law). Finally, we will discuss the advantages/disadvantages to using Gauss's Law. | At this point, we have talked about how to find the electric flux through [[184_notes:e_flux|flat surfaces]] and through [[184_notes:eflux_curved|curved surfaces]] as well how to find the [[184_notes:q_enc|enclosed charge using charge density]]. These notes will go through two examples of how we find the electric field at a single point using electric flux, enclosed charge and symmetry arguments (Gauss's Law). Finally, we will discuss the advantages/disadvantages to using Gauss's Law. |
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| | {{youtube>ESRDPplcFho?large}} |
| ==== Line of charge example ==== | ==== Line of charge example ==== |
| {{184_notes:electricflux11.jpg?350 }} | {{184_notes:electricflux11.jpg?350 }} |
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| ==== Example ==== | ==== Example ==== |
| [[:184_notes:examples:Week5_gauss_ball|Gauss' Law Application -- A Ball of Charge]] | |