184_notes:induced_current

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184_notes:induced_current [2021/11/12 23:14] – [Step 6: Determining the direction of $I_{ind}$] stumptyl184_notes:induced_current [2021/11/12 23:15] (current) – [Step 1.) Draw a picture of your situation] stumptyl
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 {{youtube>Qlg0Iu1Do94?large}} {{youtube>Qlg0Iu1Do94?large}}
 +\\ 
 +**NOTE: In this chart there is a mistake in the chart being used: The variables "V" and "I" are not vectors. Please make a note of this when watching the video to ensure there is no confusion.**
 ==== Right Hand Rule Steps ==== ==== Right Hand Rule Steps ====
  
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 Before anything, you should start with a picture of your situation. We'll draw this in the first column of the table. For our example, we'll have a bar magnet that is moving away from a set of coils. In the picture, we have marked the coils, the orientation of the magnet (which side is north/south), and which way the magnet is moving (marked with the velocity $\vec{v}$ arrow). Before anything, you should start with a picture of your situation. We'll draw this in the first column of the table. For our example, we'll have a bar magnet that is moving away from a set of coils. In the picture, we have marked the coils, the orientation of the magnet (which side is north/south), and which way the magnet is moving (marked with the velocity $\vec{v}$ arrow).
  
-[{{184_notes:ic_scenario.png?440| Step 1: First make a diagram of the particular situation include the coil, magnet, and relevant directions. +[{{184_notes:inductionchart_updated_11_12_2021.png?440| Step 1: First make a diagram of the particular situation include the coil, magnet, and relevant directions. 
  }}]  }}]
  
  • 184_notes/induced_current.1636758855.txt.gz
  • Last modified: 2021/11/12 23:14
  • by stumptyl