For the next two items (LC1 and LC2), consider the circuit shown. The switch is initially at state 1, the capacitor is initially uncharged, and the circuit has an initial current Io. The switch is th flipped from 1 (solid line) to 2 (dashed line) to form an LC circuit. The natural angular frequency is taken to be w. 1 f LC 1. When the current in the inductor drops to half its initial value, what is the magnitude of the charge on the capacitor? OA. 310 2w OB. 310 4w OC. I√3 2w OD. Io√3 4w LC 2. At what time will the current in the inductor drop to half its initial value at the first instance? (Refer to the figure in LC1) O A. OB. 0 0 O C. elle O D. T 6w म 5w 70 4w ㅠ 3w
For the next two items (LC1 and LC2), consider the circuit shown. The switch is initially at state 1, the capacitor is initially uncharged, and the circuit has an initial current Io. The switch is th flipped from 1 (solid line) to 2 (dashed line) to form an LC circuit. The natural angular frequency is taken to be w. 1 f LC 1. When the current in the inductor drops to half its initial value, what is the magnitude of the charge on the capacitor? OA. 310 2w OB. 310 4w OC. I√3 2w OD. Io√3 4w LC 2. At what time will the current in the inductor drop to half its initial value at the first instance? (Refer to the figure in LC1) O A. OB. 0 0 O C. elle O D. T 6w म 5w 70 4w ㅠ 3w
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter33: Inductors And Ac Circuits
Section: Chapter Questions
Problem 70PQ
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