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| Nächste Überarbeitung | Vorhergehende Überarbeitung | ||
| electrical_engineering_1:task_jti0uzudcmg4u22t_with_calculation [2023/02/12 03:08] – angelegt mexleadmin | electrical_engineering_1:task_jti0uzudcmg4u22t_with_calculation [Unbekanntes Datum] (aktuell) – gelöscht - Externe Bearbeitung (Unbekanntes Datum) 127.0.0.1 | ||
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| - | {{tag> | ||
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| - | <panel type=" | ||
| - | <fs x-large> | ||
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| - | A circuit with an ideal voltage source ($U=50 V$, $f=330 Hz$) and two components ($R$ and $\underline{X}_1$) shall be given. \\ | ||
| - | After analysis, the following formula for the impedance was extracted: | ||
| - | \begin{align*} | ||
| - | \underline{Z} = \left({{2}\over{3+4j}}+5j \right) \Omega | ||
| - | \end{align*} | ||
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| - | 1. Calculate the physical values of the two components. | ||
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| - | <button size=" | ||
| - | < | ||
| - | \begin{align*} | ||
| - | \underline{Z} &= \left({{2}\over{3+4j}} + 5j \right) \Omega \\ | ||
| - | &= \left({{2}\over{3+4j}} \cdot {{3-4j}\over{3-4j}} + 5j \right) \Omega \\ | ||
| - | &= \left({{2}\over{9+16}} \cdot (3-4j) + 5j \right) \Omega \\ | ||
| - | &= \left(0.24 - 0.32j + 5j \right) \Omega \\ | ||
| - | &= 0.24 \Omega + j \cdot 4.68 \Omega \\ | ||
| - | \end{align*} | ||
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| - | </ | ||
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| - | <button size=" | ||
| - | \begin{align*} | ||
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| - | \end{align*}</ | ||
| - | \\ | ||
| - | </ | ||
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| - | 2. Calculate the phase and absolute value of complex current $\underline{I}$ through the circuit. | ||
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| - | 3. Now an additional component $\underline{X}_2$ shall be added in series to the two components. \\ | ||
| - | This component shall be dimensioned in such a way that the current and voltage are in phase. Calculate these component value! | ||
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| - | </ | ||