Unterschiede

Hier werden die Unterschiede zwischen zwei Versionen angezeigt.

--- electrical_engineering_2:task_1.4.2_with_calc [2023/03/10 11:31] – mexleadmin
+++ electrical_engineering_2:task_1.4.2_with_calc [2023/03/15 13:53] (aktuell) – mexleadmin
@@ Zeile 1: / Zeile 1: @@
 <panel type="info" title="Task 1.4.2 electrical Field at different Geometry I (exam task, ca 6% of a 60 minute exam)"> <WRAP group><WRAP column 2%>{{fa>pencil?32}}</WRAP><WRAP column 92%>
-<WRAP right>{{elektrotechnik_1:feldstaerkegeometriei.jpg?400}}</WRAP>
+<WRAP right>
+{{drawio>electrical_engineering_2:feldstaerkegeometriei.svg}}
+</WRAP>
 The figure on the right shows an arrangement of ideal metallic conductors (gray) with specified charge. In white a dielectric (e.g. vacuum) is shown.
@@ Zeile 18: / Zeile 20: @@
 <button size="xs" type="link" collapse="Loesung_5_4_2_Lösungsweg">{{icon>eye}} Solution</button><collapse id="Loesung_5_4_2_Lösungsweg" collapsed="true">
   - At $b$ and $d$ no field is measurable, because the surrounded conductor is on a constant field. There is no potential difference and therefore no field.
-  - At $c$ a field (magnitude >0) is measurable, which points from the charge ($+1~C$) to the elongated conductor ($-2~C$). Due to the tip, there is an excess charge and thus a higher field.
+  - At $c$ a field (magnitude >0) is measurable, which points from the charge ($+1~\rm{C}$) to the elongated conductor ($-2~\rm{C}$). Due to the tip, there is an excess charge and thus a higher field.
-  - At $a$ a field (magnitude >0) is measurable, which points from the charge ($+1~C$) to the elongated conductor ($-2~C$).
+  - At $a$ a field (magnitude >0) is measurable, which points from the charge ($+1~\rm{C}$) to the elongated conductor ($-2~\rm{C}$).
 </collapse>