The equations below represent (a) a first order RC circuit and (b) a second order RLC circuit. Use Laplace transforms to determine the capacitor voltage, V(t). a) b) dV (t) dt + 4V(t) = 2u(t), V(t = 0) = 2V. d²v(t) dt² +2 dv (t) dt + V(t) = e¯²t, V(t = 0) = 0V, dv (t=0) dt = 0V.

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The equations below represent (a) a first order RC circuit and (b) a second order RLC circuit.
Use Laplace transforms to determine the capacitor voltage, V(t).
a)
b)
dv (t)
dt
+ 4V (t) = 2u(t), V(t = 0) = 2V.
d²v (t)
dt²
+ 2
dv (t)
dt
-2t
+ V (t) = e ²t, V(t = 0) = 0V,
dv (t=0)
dt
= 0V.
Transcribed Image Text:The equations below represent (a) a first order RC circuit and (b) a second order RLC circuit. Use Laplace transforms to determine the capacitor voltage, V(t). a) b) dv (t) dt + 4V (t) = 2u(t), V(t = 0) = 2V. d²v (t) dt² + 2 dv (t) dt -2t + V (t) = e ²t, V(t = 0) = 0V, dv (t=0) dt = 0V.
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