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| electrical_engineering_and_electronics_2:introduction_in_alternating_current_technology [2025/09/19 11:44] – ↷ Seite von electrical_engineering_and_electronics_1:introduction_in_alternating_current_technology nach electrical_engineering_and_electronics_2:introduction_in_alternating_current_technology verschoben mexleadmin | electrical_engineering_and_electronics_2:introduction_in_alternating_current_technology [2025/09/19 12:37] (aktuell) – ↷ Links angepasst, weil Seiten im Wiki verschoben wurden mexleadmin | ||
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| Zeile 41: | Zeile 41: | ||
| Voltages and currents in the following chapters will be time-dependent values. | Voltages and currents in the following chapters will be time-dependent values. | ||
| - | As already used in chapter [[dc_circuit_transients|5.]] for the time-dependent values lowercase letters will be written. | + | As already used in chapter [[electrical_engineering_and_electronics_2: |
| By these time-dependent values, any temporal form of the voltage/ | By these time-dependent values, any temporal form of the voltage/ | ||
| Zeile 253: | Zeile 253: | ||
| </ | </ | ||
| - | In the chapters [[simple_circuits|2. Simple Circuits]] and [[non-ideal_sources_and_two_terminal_networks|3 Non-ideal Sources and Two-terminal Networks]] we already have seen, that it is possible to reduce complex circuitries down to equivalent resistors (and ideal sources). This we will try to adopt for AC components, too. | + | In the chapters [[electrical_engineering_and_electronics_1: |
| We want to analyze how the relationship between the current through a component and the voltage drop on this component behaves when an AC current is applied. | We want to analyze how the relationship between the current through a component and the voltage drop on this component behaves when an AC current is applied. | ||