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| RESUME |
|
[ Constantes
| Grandeurs
| Unites
| Relations
| Impedances ]
|
| Energie | Joule | ||
| Puissance | Watt | ||
| Intensité | Ampère | ||
| Tension | Volt | ||
| Quantité d'électricité | Coulomb | ||
| Temps | seconde | ||
| Fréquence | Hertz | ||
| Phase | Degré | ||
| Impédance | Ohm | ||
| Résistance | Ohm | ||
| Inductance | Henry | ||
| Capacité | Farad | ||
| Energie | W = P.T = U.I.T = R.I2.T = U2.T/R |
| Puissance | P = W/T = U.I = R.I2 = U2/R |
| Intensité | I = U/R = P/U = W/(U.T) |
| Tension | U = R.I = P/I = W/(I.T) = W/Q |
| Quantité d'élecricité | Q = I.T = C.V |
| Période | T = 1/F = 2.π.R.C = 2.π.L/R = 2.π.√(L.C) |
| Fréquence | F = 1/T = 1/(2.π.R.C) = R/(2.π.L) = 1/(2.π.√[L.C]) |
| Résistance | R = U/I = P/I2 = W/(I2.T) = T/C = L/T |
| Inductance | L = R.T = T2/C |
| Capacité | C = T/R = T2/L |
| Résistance | ZR = R |
| Inductance | |ZL| = | j.2.π.F.L | = 2.π.F.L |
| Condensateur | |ZC| = | -j/(2.π.F.C) | = 1/(2.π.F.C) |
| n en série | Zs = Σ Zk = Z1 + Z2 + ... + Zn |
| n en parallèle | 1/Zp = Σ 1/Zk = 1/Z1 + 1/Z2 + ... + 1/Zn |