KEY CONCEPT FIGURE 26.23 The capacitor charge oscillates much like a block attached to a spring. Q = Qo Q = 0 +++ The capacitor discharges until the current is a i = 0 i Маx v ha v = 0 maximum. Maximum capacitor charge is like a fully stretched spring. Maximum current is like the block having maximum speed. The current continues until the initial capacitor charge is restored. The current continues until the capacitor is fully recharged with opposite polarization. Q =-Qo Q = 0 i Now the i = 0 discharge goes in the opposite direction. Мах v v=0
KEY CONCEPT FIGURE 26.23 The capacitor charge oscillates much like a block attached to a spring. Q = Qo Q = 0 +++ The capacitor discharges until the current is a i = 0 i Маx v ha v = 0 maximum. Maximum capacitor charge is like a fully stretched spring. Maximum current is like the block having maximum speed. The current continues until the initial capacitor charge is restored. The current continues until the capacitor is fully recharged with opposite polarization. Q =-Qo Q = 0 i Now the i = 0 discharge goes in the opposite direction. Мах v v=0
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Figure illustrates a block-and-spring analogy to an LC circuit. What mechanical property of the blockand- spring system corresponds to the inductance L of the LC circuit? What mechanical property corresponds to the capacitance C?
Transcribed Image Text:KEY CONCEPT
FIGURE 26.23 The capacitor charge oscillates much like a block
attached to a spring.
Q = Qo
Q = 0
+++
The capacitor
discharges until
the current is a
i = 0
i
Маx v
ha
v = 0 maximum.
Maximum capacitor charge is
like a fully stretched spring.
Maximum current is like the block
having maximum speed.
The current continues
until the initial capacitor
charge is restored.
The current continues until the
capacitor is fully recharged
with opposite polarization.
Q =-Qo
Q = 0
i
Now the
i = 0
discharge goes
in the opposite
direction.
Мах v
v=0
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