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simple_electrostatic_simulation_in_femm_-_step-by-step_tutorial

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simple_electrostatic_simulation_in_femm_-_step-by-step_tutorial [2021/05/11 21:49]
stanzurek [Step 16 - line integral] 		simple_electrostatic_simulation_in_femm_-_step-by-step_tutorial [2021/05/11 22:08] (current)
stanzurek [Step 19 - that's it!]
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 {{enter_point.png}} Fig. 3-2. Entering point with coordinates (0,0) {{enter_point.png}} Fig. 3-2. Entering point with coordinates (0,0)
  
-Click on the ''Zoom extents'' button (Fig. 3-3), which is the third one (white rectangle with a magnifying glass). (//If not sure - hover a mouse over the buttons and see their description in the botoom left of the FEMM window.//+Click on the ''Zoom extents'' button (Fig. 3-3), which is the third one (white rectangle with a magnifying glass). (//If not sure - hover a mouse over the buttons and see their description in the bottom left of the FEMM window.//
  
 Then click on the ''Zoom out'' button once (magnifying glass with a minus). Then click on the ''Zoom out'' button once (magnifying glass with a minus).
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 ==== Step 17 - conductor info ==== ==== Step 17 - conductor info ====
  
-The losses in the ciruict (energised coil) can be integrated with the block method described above, but much reacher information is provided with the "Circuit properties" icon, Fig. 17-1. +Info about the given conductor with the "Conductor properties" icon, Fig. 17-1. 
  
-If there is more than one current/circuit defined then it can be selected from the drop-down list.+If there is more than one conductor defined then it can be selected from the drop-down list.
  
-{{conductor_info.png?600}} Fig. 17-1. Circuit properties+Capacitance is charge over voltage, C = q/V, and because the voltage was set to 1 V, the capacitance of this capacitor is 3.6e-13 F, or 0.36 pF. 
 + 
 +{{el/conductor_properties_el.png?600}} Fig. 17-1. Conductor properties
  
 ---- ----
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 If snap-to-grid is enabled then only the grid positions will be available. If snap-to-grid is enabled then only the grid positions will be available.
  
-{{data_at_any_point.png}} Fig. 18-1. Click anywhere to get values+{{el/point_props_el.png}} Fig. 18-1. Click anywhere to get values
  
 ---- ----
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 ==== Step 19 - that's it! ==== ==== Step 19 - that's it! ====
  
-And that's all - now you can run a simple FEMM magnetics simulation!+And that's all - now you can run a simple FEMM electrostatic simulation!
  
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simple_electrostatic_simulation_in_femm_-_step-by-step_tutorial.1620762551.txt.gz · Last modified: 2021/05/11 21:49 by stanzurek

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