Calculate the current across the capacitor shown in Fig. P8.6 if the voltage input is v2(t)=22 sin (469t-302°) V + v(t) Figure P8.6 i(t) C = 1 µF For a current i(t) = C cos(wt+P), enter the value of the phase angle (P). (be sure that your answer is between -180deg to 180deg.) Notes on entering solution: • Enter your solution in degree • Have your current in cosine format • Do not include units in your answer

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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Calculate the current across the capacitor shown in Fig. P8.6 if the voltage input is
v2(t)=22 sin (469t-302°) V
+
v(t)
Figure P8.6
i(t)
C = 1 µF
For a current i(t) = C cos(wt+P), enter the value of the phase angle (P). (be sure that your answer is
between -180deg to 180deg.)
Notes on entering solution:
• Enter your solution in degree
• Have your current in cosine format
• Do not include units in your answer
.ex. 5° is entered as 5
Transcribed Image Text:Calculate the current across the capacitor shown in Fig. P8.6 if the voltage input is v2(t)=22 sin (469t-302°) V + v(t) Figure P8.6 i(t) C = 1 µF For a current i(t) = C cos(wt+P), enter the value of the phase angle (P). (be sure that your answer is between -180deg to 180deg.) Notes on entering solution: • Enter your solution in degree • Have your current in cosine format • Do not include units in your answer .ex. 5° is entered as 5
Find the frequency-domain impedance Z, as shown in Fig. P8.8.
(W=3Ω, L=j3 Ω)
Z-
Figure P8.8
1.98/40°
2.5/60°
2.12/45°
SwΩ
2.83/17°
jLΩ
Transcribed Image Text:Find the frequency-domain impedance Z, as shown in Fig. P8.8. (W=3Ω, L=j3 Ω) Z- Figure P8.8 1.98/40° 2.5/60° 2.12/45° SwΩ 2.83/17° jLΩ
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