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--- electrical_engineering_and_electronics_1:block04 [2025/09/28 23:31] – mexleadmin
+++ electrical_engineering_and_electronics_1:block04 [2025/10/14 11:36] (aktuell) – [Parallel circuit of resistors] mexleadmin
@@ Zeile 9: / Zeile 9: @@
   * Use KCL/KVL as the foundation for upcoming techniques (series/parallel, dividers, bridges, source equivalents).
 </callout>
+===== Preparation at Home =====
+As always:
+  * Please read through the following chapter.
+  * Also here, there are some clips for more clarification under 'Embedded resources' (check the text above/below, sometimes only part of the clip is interesting).
+For checking your understanding please do the following exercises:
+  * 2.3.3 (1)
+  * 2.4.3
 ===== 90-minute plan =====
@@ Zeile 117: / Zeile 127: @@
 </WRAP>
-Since the same voltage $U_{ab}$ is dropped across all resistors, using Kirchhoff's current law:
+Since the same voltage $U_{\rm ab}$ is dropped across all resistors, using Kirchhoff's current law:
-$\large{{U_{ab}}\over{R_1}}+ {{U_{ab}}\over{R_2}}+ ... + {{U_{\rm ab}}\over{R_n}}= {{U_{\rm ab}}\over{R_{\rm eq}}}$
+$\large{{U_{\rm ab}}\over{R_1}}+ {{U_{\rm ab}}\over{R_2}}+ ... + {{U_{\rm ab}}\over{R_n}}= {{U_{\rm ab}}\over{R_{\rm eq}}}$
 $\rightarrow \large{{{1}\over{R_1}}+ {{1}\over{R_2}}+ ... + {{1}\over{R_n}}= {{1}\over{R_{\rm eq}}} = \sum_{x=1}^{n} {{1}\over{R_x}}}$
@@ Zeile 251: / Zeile 261: @@
 </WRAP></WRAP></panel>
-<panel type="info" title="Exercise 4.1 Identify nodes, branches, and loops"> <WRAP group><WRAP column 2%>{{fa>pencil?32}}</WRAP><WRAP column 92%>
-Label nodes (degree $\ge 3$), branches, and at least two distinct loops.
-<WRAP>
-<imgcaption BildNr70 | Branches and Nodes>
-</imgcaption>
-{{drawio>ZweigeundKnoten.svg}}
-</WRAP>
-</WRAP></WRAP></panel>