Exercise: Consider the series RLC circuit of Figure 1 with the source a 1-kHz sinusoid having an amplitude of 5 V. Regard the source voltage as having zero phase. Calculate the amplitude and phase (in degrees) of the following quantities: the voltage across the resistor, the voltage across the inductor, and the voltage across the capacitor L R Synthesized Frequency Generator Figure 1: Series RLC circuit Table 1: Component values for the circuits of Figures 1 and 2 Component Value 5 kΩ R 900 mH L 0.08 uF C

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Exercise: Consider the series RLC circuit of Figure 1 with the source a 1-kHz sinusoid
having an amplitude of 5 V. Regard the source voltage as having zero phase.
Calculate the amplitude and phase (in degrees) of the following quantities: the
voltage across the resistor, the voltage across the inductor, and the voltage across
the capacitor
Transcribed Image Text:Exercise: Consider the series RLC circuit of Figure 1 with the source a 1-kHz sinusoid having an amplitude of 5 V. Regard the source voltage as having zero phase. Calculate the amplitude and phase (in degrees) of the following quantities: the voltage across the resistor, the voltage across the inductor, and the voltage across the capacitor
L
R
Synthesized
Frequency
Generator
Figure 1: Series RLC circuit
Table 1: Component values for the circuits of Figures 1 and 2
Component
Value
5 kΩ
R
900 mH
L
0.08 uF
C
Transcribed Image Text:L R Synthesized Frequency Generator Figure 1: Series RLC circuit Table 1: Component values for the circuits of Figures 1 and 2 Component Value 5 kΩ R 900 mH L 0.08 uF C
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