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Unformatted text preview: combination with V IN , I IN , I L and I C labeled. Lecture 29 figures 3 Fig. 293: A series LC combination. We will determine and plot the impedance Z of this combination as a function of driving frequency ω . Fig. 293b: The magnitude of the impedance Z for the series LC combination as a function of driving frequency ω . Fig. 293c: The phase of the impedance θ Z for the series LC combination as a function of driving frequency ω . Fig. 293e: The voltages V L and V C plotted as a function of frequency ω . Fig. 293d: The series LC combination with V IN , I IN , V L and V C labeled. Lecture 29 figures 4 Fig. 294: A network consisting of two inductors and one capacitor. We will determine and plot the impedance Z of this combination as a function of driving frequency ω . Fig. 294b: The magnitude of the impedance Z for the network of Fig. 294 as a function of frequency ω . Values used are: L 1 = 80 mH; L 2 = 100 mH; and C = 10 µ F....
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 Spring '08
 Xangi
 Frequency, Resistor, Fig., Fig

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