A)-3 V B) 5.5 V 24 V D) 10 V Q12.The energy stored in the capacitor at t= 120 ms is: A) 14.989) B) 20.207 J C) 39.815J Q13. For a three phase balanced Y E)-7.5 V D) 42.155 J E) 62.125 J

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how to solve q12. 

30 A
61)
ww
lix
412
200 F
2012
Figure (8)
For the circuit shown in Figure (8), answer Q10, Q11 and Q12:
552
Q10. The capacitor voltage v will change exponentially with a time constant of
A) 0.8 s
B 1.6s
D) 3.1 s
E) 5.01 s
C) 2.15 s
Q11.The initial value of the capacitor voltage v is:
A)-3 V
B) 5.5 V
24 V D) 10 V
Q12.The energy stored in the capacitor at t= 120 ms is:
A) 14.989)
B) 20.207 J
C) 39.815 J
Q13. For a three phase balanced Y-connected
E) -7.5 V
D) 42.155 J
load having a mu
30 V
B) 62.125 J
Transcribed Image Text:30 A 61) ww lix 412 200 F 2012 Figure (8) For the circuit shown in Figure (8), answer Q10, Q11 and Q12: 552 Q10. The capacitor voltage v will change exponentially with a time constant of A) 0.8 s B 1.6s D) 3.1 s E) 5.01 s C) 2.15 s Q11.The initial value of the capacitor voltage v is: A)-3 V B) 5.5 V 24 V D) 10 V Q12.The energy stored in the capacitor at t= 120 ms is: A) 14.989) B) 20.207 J C) 39.815 J Q13. For a three phase balanced Y-connected E) -7.5 V D) 42.155 J load having a mu 30 V B) 62.125 J
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