Question

P2. The original voltage on the capacitor $V_c(0^-)$ is shown in the Fig. 2. The switch will turn on at moment $t_0 = 0$. Given the input waveform, please draw the voltage waveform of $V_c(t)$. 

          P2.
The original voltage on the capacitor $V_c(0^-)$ is shown in the Fig. 2. The switch will
turn on at moment $t_0 = 0$. Given the input waveform, please draw the voltage waveform
of $V_c(t)$.
P2. The original voltage on the capacitor Vc(0^-) is shown in the Fig. 2. The switch will turn on at moment t0 = 0. Given the input waveform, please draw the voltage waveform of Vc(t).

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University Physics with Modern Physics
University Physics with Modern Physics
Hugh D. Young 14th Edition
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P2. The original voltage on the capacitor V0 is shown in Fig. 2. The switch will turn on at moment t = 0. Given the input waveform, please draw the voltage waveform of V. +v(0) = -20V, C = 1F ACU 11:9 2 312(ĂŽÂĽs) Fig. 2 4. 20 10 210a20
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Transcript

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00:01 So for the first subpart, when t is less than 0, when t is less than 0, i .0 is equal to 0 ampers when t is greater than 0, vs is equals to 80 volts.
00:19 It is applied voltage.
00:22 So, at t is equal to 0, the induced current teaches to steady state and it is, and it acts as a short circuit.
00:36 So we can say that i .0 infinity is equals to a steady state and it is, and it acts as a short circuit...
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