184_notes:r_energy

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184_notes:r_energy [2018/06/19 13:36] – [Energy around the Circuit] curdemma184_notes:r_energy [2020/08/23 20:18] dmcpadden
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 Sections 18.3, 18.8-18.10, and 19.4 in Matter and Interactions (4th edition) Sections 18.3, 18.8-18.10, and 19.4 in Matter and Interactions (4th edition)
    
-[[184_notes:resistivity|Next Page: Resistors and Conductivity]]+/*[[184_notes:resistivity|Next Page: Resistors and Conductivity]]
  
-[[184_notes:resistors|Previous Page: Resistors]]+[[184_notes:resistors|Previous Page: Resistors]]*/
  
 ===== Energy around the Circuit ===== ===== Energy around the Circuit =====
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 {{youtube>c4tAtICY2Co?large}} {{youtube>c4tAtICY2Co?large}}
  
-Let's continue to look at the simple circuit that we were using above (a mechanical battery, wires, and a thin filament). To analyze the energy in our circuit, we can refer back to the [[184_notes:three_principles|the Energy Principle]]. If we take everything to be in our system, including the battery, wires, filament, and the surrounding air or materials, then we know that:+Let's continue to look at the simple circuit that we were using in the video above (a mechanical battery, wires, and a thin filament). To analyze the energy in our circuit, we can refer back to [[184_notes:three_principles|the Energy Principle]]. If we take everything to be in our system, including the battery, wires, filament, and the surrounding air or materials, then we know that:
 $$\Delta E_{sys}=0$$ $$\Delta E_{sys}=0$$
 If we breakdown what is in our system, this means that If we breakdown what is in our system, this means that
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  • by schram45