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--- electrical_engineering_1:aufgabe_7.2.6_mit_rechnung [2023/03/23 14:49] – mexleadmin
+++ electrical_engineering_1:aufgabe_7.2.6_mit_rechnung [2024/11/20 15:21] (current) – mexleadmin
@@ Line 1: / Line 1: @@
-<panel type="info" title="Exercise 5.2.6: Charging and Discharging of RC elements (exam task, ca. 11 % of a 60-minute exam, WS2020)"> <WRAP group><WRAP column 2%>{{fa>pencil?32}}</WRAP><WRAP column 92%>
+<panel type="info" title="Exercise 5.2.3: Charging and Discharging of RC elements (exam task, ca. 11 % of a 60-minute exam, WS2020)"> <WRAP group><WRAP column 2%>{{fa>pencil?32}}</WRAP><WRAP column 92%>
 <WRAP right> {{:elektrotechnik_1:schaltung_klws2020_3_2_1.jpg?400|schaltung_klws2020_3_2_1.jpg}}</WRAP>
@@ Line 59: / Line 59: @@
 \begin{align*} U_C(t) = 7.506 ~{\rm V} \rightarrow 7.5 ~{\rm V} \end{align*} \\ </collapse>
-. What is the value of the energy, when the capacitor is fully charged?
+. What is the value of the stored energy in the capacitor, when it is fully charged?
 <button size="xs" type="link" collapse="Loesung_7_2_6_3_Lösungsweg">{{icon>eye}} Solution</button><collapse id="Loesung_7_2_6_3_Lösungsweg" collapsed="true">
@@ Line 90: / Line 90: @@
 \end{align*} \\ </collapse>
-. When the capacitor is empty all switches will be opened. The switch $S_4$ will be closed at $t= 0$. \\ What is the voltage $u_C$ at the capacitor C after $t = 1 ~ {\rm µs}$?
+. When the capacitor is completely discharged, all switches will be opened. The switch $S_4$ will be closed at $t= 0$. \\ What is the voltage $u_C$ at the capacitor C after $t = 1 ~ {\rm µs}$?
 <button size="xs" type="link" collapse="Loesung_7_2_6_5_Tipps">{{icon>eye}} Tips</button><collapse id="Loesung_7_2_6_5_Tipps" collapsed="true">