1. The 300-µF capacitor in the figure on the right is initially charged to 100 V, the 1200-µF capacitor is uncharged, and the switches are both open. a. What is the maximum voltage to which you can charge the 1200-µF capacitor by the proper closing and opening of the two switches? 300 µF= 5.3 H 1200 μF b. How would you do it? Describe the sequence in which you would close and open switches and the times at which you would do so. The first switch is closed at t= 0. elle

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1. The 300-µF capacitor in the figure on the right is initially
charged to 100 V, the 1200-µF capacitor is uncharged, and the
switches are both open.
a. What is the maximum voltage to which you can charge the
1200-µF capacitor by the proper closing and opening of
the two switches?
b. How would you do it? Describe the sequence in which
you would close and open switches and the times at which you would do so. The first
switch is closed at t = 0.
300 µF:
5.3 H
1200 μF
Transcribed Image Text:1. The 300-µF capacitor in the figure on the right is initially charged to 100 V, the 1200-µF capacitor is uncharged, and the switches are both open. a. What is the maximum voltage to which you can charge the 1200-µF capacitor by the proper closing and opening of the two switches? b. How would you do it? Describe the sequence in which you would close and open switches and the times at which you would do so. The first switch is closed at t = 0. 300 µF: 5.3 H 1200 μF
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