Unterschiede

Hier werden die Unterschiede zwischen zwei Versionen angezeigt.

--- electrical_engineering_1:dc_circuit_transients [2021/10/30 19:23]
tfischer
+++ electrical_engineering_1:dc_circuit_transients [2021/10/30 20:12]
tfischer
@@ Zeile 10: / Zeile 10: @@
 <callout>
-<WRAP> <imgcaption imageNo01 | Capacitor in electrical circuit> </imgcaption> \\ {{drawio>KondensatorImStromkreis}} \\ </WRAP>
+<WRAP>
+<imgcaption imageNo01 | Capacitor in electrical circuit>
+</imgcaption>
+\\ {{drawio>KondensatorImStromkreis}} \\
+</WRAP>
 Here we will shortly introduce the basic idea behind a capacitor. A more detailed analysis will follow in electical engineering II. \\  \\
@@ Zeile 44: / Zeile 48: @@
 <callout>
-In this chapter also time-varying quantities are considered. These are generally marked with small letters. Examples of time-varying quantities are:
+In this chapter also time-varying quantities are considered. These are generally marked with lowercase letters. Examples of time-varying quantities are:
   * A **time-varying voltage $u_C(t)$ across a capacitor**  or the **voltage $u_s$ of an ac voltage source**  as opposed to a constant voltage $U_q$ across a constant voltage source.
   * A **time-varying current $i_L(t)$ across a coil** or **time-varying current $i_C(t)$ across a capacitor**.
-Since the time dependence is already clear from the small letter, these quantities are occasionally not indicated by the trailing $(t)$. So it is $u = u(t)$.
+Since the time dependence is already clear from the lowercase letter, these quantities are occasionally not indicated by the trailing $(t)$. So it is $u = u(t)$.
 </callout>
-===== 5.1 Time course of the charging and discharging process =====
+===== 5.1 Time Course of the Charging and Discharging Process =====
 <callout>
@@ Zeile 310: / Zeile 314: @@
 ~~PAGEBREAK~~ ~~CLEARFIX~~
-===== 5.2 Energy of a capacitor =====
+===== 5.2 Energy stored in a Capacitor =====
 <callout>