Equation 1: Q(t)=CVcap(t) Equation 2: Qdischarging(t)=CVe^(−t/RC) 1. Combine equations 1 and 2 to create an equation capable of finding the time-dependent voltage across a discharging capacitor. Equation 3: I(t)≡(dQ(t))/(dt) 2. Combine equations 2 and 3 to create an equation capable of finding the time-dependent current across a discharging capacitor.
Equation 1: Q(t)=CVcap(t) Equation 2: Qdischarging(t)=CVe^(−t/RC) 1. Combine equations 1 and 2 to create an equation capable of finding the time-dependent voltage across a discharging capacitor. Equation 3: I(t)≡(dQ(t))/(dt) 2. Combine equations 2 and 3 to create an equation capable of finding the time-dependent current across a discharging capacitor.
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Equation 1: Q(t)=CVcap(t)
Equation 2: Qdischarging(t)=CVe^(−t/RC)
1. Combine equations 1 and 2 to create an equation capable of finding the time-dependent voltage across a discharging capacitor.
Equation 3: I(t)≡(dQ(t))/(dt)
2. Combine equations 2 and 3 to create an equation capable of finding the time-dependent current across a discharging capacitor.
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