Unterschiede
Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
| Beide Seiten der vorigen Revision Vorhergehende Überarbeitung Nächste Überarbeitung | Vorhergehende Überarbeitung Nächste Überarbeitung Beide Seiten der Revision | ||
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electrical_engineering_1:introduction_in_alternating_current_technology [2023/07/17 02:41] mexleadmin [6.5.2 Application on pure Loads] |
electrical_engineering_1:introduction_in_alternating_current_technology [2023/12/13 09:41] mexleadmin [Bearbeiten - Panel] |
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| Zeile 1: | Zeile 1: | ||
| - | ====== 6. Introduction to Alternating Current Technology ====== | + | ====== 6 Introduction to Alternating Current Technology ====== |
| Up to now, we had analyzed DC signals (chapters 1. - 4.) and abrupt voltage changes for (dis)charging capacitors (chapter 5.). In households, we use alternating voltage (AC) instead of a constant voltage (DC). This is due to at least three main facts | Up to now, we had analyzed DC signals (chapters 1. - 4.) and abrupt voltage changes for (dis)charging capacitors (chapter 5.). In households, we use alternating voltage (AC) instead of a constant voltage (DC). This is due to at least three main facts | ||
| Zeile 817: | Zeile 817: | ||
| in the following, some of the numbers are given. | in the following, some of the numbers are given. | ||
| - | Calculate the RMS value of the missing | + | Calculate the RMS value of the missing |
| - $I_R = 3~\rm A$, $I_L = 1 ~\rm A$, $I_C = 5 ~\rm A$, $I=?$ | - $I_R = 3~\rm A$, $I_L = 1 ~\rm A$, $I_C = 5 ~\rm A$, $I=?$ | ||
| - $I_R = ?$, $I_L = 1.2~\rm A$, $I_C = 0.4~\rm A$, $I=1~\rm A$ | - $I_R = ?$, $I_L = 1.2~\rm A$, $I_C = 0.4~\rm A$, $I=1~\rm A$ | ||