85 1012 nm2 parallel c1 c2 ceq c1 c2 series c1

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Unformatted text preview: f ; vx (t) = ...; vmax = ... T me = 9.11 × 10−31 kg mp = 1.67 × 10−27 kg e = 1.60 × 10−19 C ￿ FC = Kq1 q2 ˆ r r2 K= 1 4π￿0 ￿ ￿ FE = q E Eline = 2K |λ| r = 2K |Q| Lr Eplane = |η | 2￿0 = 2 |Q| 2A￿0 ￿ Ecap = mv 2 + Uel (s) 2 = 2 mv0 + Uel (s0 ), 2 C C Q = C ∆VC farad = F = V C = ￿0dA ￿0 = 8.85 × 10−12 Nm2 − − − parallel C1 , C2 : Ceq = C1 + C2 series C1 , C2 : Ceq1 = C1 1 + C2 1 ￿ ￿ ￿ ∆Vloop = i ∆Vi = 0 Iin = Iout P = ∆V I watt = W = VA PR = ∆VR I = I 2 R V τ = RC Q(t) = Q0 e−t/τ I (t) = − dQ = ∆R 0 e−t/τ dt vr sr ￿ B = µ0 q￿ ×￿ = µ0 I ∆￿3×￿ Bwire = µ0 I (use RH rule) µ0 = 10−7 Tm 3 4π r 4π r 2π d 4π A (U ≡ P E el ) ￿ Uel = qEx for E = −...
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This note was uploaded on 09/28/2010 for the course MATH 1025 taught by Professor Tammie during the Fall '10 term at York University.

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