| Parallelschaltung |
| \( R \, und \, C \) |
\( R \, und \, L \) |
|
|
| Zeigerdiagramm der Ströme |
|
|
| $$ I = \sqrt{I_R^2 + I_C^2} $$ |
$$ I = \sqrt{I_R^2 + I_L^2} $$ |
| $$ I = \frac{I_C}{\sin \varphi} $$ |
$$ I = \frac{I_L}{\sin \varphi} $$ |
| $$ I = \frac{I_R}{\cos \varphi} $$ |
$$ I = \frac{I_R}{\cos \varphi} $$ |
| $$ I_R = \sqrt{I^2 – I_C^2} $$ |
$$ I_R = \sqrt{I^2 – I_L^2} $$ |
| $$ I_R = I \cdot \cos \varphi $$ |
$$ I_R = I \cdot \cos \varphi $$ |
| $$ I_R = \frac{I_C}{\tan \varphi} $$ |
$$ I_R = \frac{I_L}{\tan \varphi} $$ |
| $$ I_C = \sqrt{I^2 – I_R^2} $$ |
$$ I_L = \sqrt{I^2 – I_R^2} $$ |
| $$ I_C = I \cdot \sin \varphi $$ |
$$ I_L = I \cdot \sin \varphi $$ |
| $$ I_C = I_R \cdot \tan \varphi $$ |
$$ I_L = I_R \cdot \tan \varphi $$ |
