680. Given a sinusoidal voltage source in series with R,L, and C. The sin voltage source has a frequency of 300 Hz. milliHenry, C=4 microFarad, V=30sin (wt) volts. phasor current and voltage across the capacitor. I(jw)=Aexp(jB), vc(jw)=Dexp(jE), Express radian angles between [-pi/2,pi/2]. corresponding time domain forms. Ans: D,E, F all MKS units. R=3 Ohms, L=1 Solve for the Find the i(t)=Fsin(wt+G), vc(t)=Hsin(wt+K) ans:4

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680. Given a sinusoidal voltage source in series with R, L, and C. The sin
voltage source has a frequency of 300 Hz.
milliHenry, C=4 microFarad, V=30sin (wt) volts.
phasor current and voltage across the capacitor. I(jw)=Aexp(jB),
vc(jw)=Dexp(jE), Express radian angles between [-pi/2, pi/2]. Find the
corresponding time domain forms.
Ans: D, E, Fs all MKS units.
R=3 Ohms, L=1
Solve for the
i(t)=Fsin(wt+G),
vc(t)=Hsin(wt+K)
ans:4
Transcribed Image Text:680. Given a sinusoidal voltage source in series with R, L, and C. The sin voltage source has a frequency of 300 Hz. milliHenry, C=4 microFarad, V=30sin (wt) volts. phasor current and voltage across the capacitor. I(jw)=Aexp(jB), vc(jw)=Dexp(jE), Express radian angles between [-pi/2, pi/2]. Find the corresponding time domain forms. Ans: D, E, Fs all MKS units. R=3 Ohms, L=1 Solve for the i(t)=Fsin(wt+G), vc(t)=Hsin(wt+K) ans:4
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