Pre-Lab Problem Consider the electrical RC circuit shown in the illus- tration. The resistance R = 10 k2, and the capacitance C = 0.1 μF. Vg(t) ( R www с Part II a) Suppose that after a sufficiently long time for the above system to reach steady-state, the in- put source is suddenly switched to off, v. (t) = 0. Solve the differential equation again to derive a new expression for ve(t). Hint: Assume that "time" has started over at t = 0, with initial conditions ve(t) = Vo. b) From the results of part a), find the voltage across the resistor u, (t).

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Pre-Lab Problem
Consider the electrical RC circuit shown in the illus-
tration. The resistance R = 10 k2, and the capacitance
C = 0.1 μF.
vg(t)
R
www
C
Part II
a) Suppose that after a sufficiently long time for
the above system to reach steady-state, the in-
put source is suddenly switched to off, v. (t) = 0.
Solve the differential equation again to derive a new
expression for ve(t). Hint: Assume that "time"
has started over at t = 0, with initial conditions
ve (t) = Vo.
b) From the results of part a), find the voltage across
the resistor u,.(t).
Transcribed Image Text:Pre-Lab Problem Consider the electrical RC circuit shown in the illus- tration. The resistance R = 10 k2, and the capacitance C = 0.1 μF. vg(t) R www C Part II a) Suppose that after a sufficiently long time for the above system to reach steady-state, the in- put source is suddenly switched to off, v. (t) = 0. Solve the differential equation again to derive a new expression for ve(t). Hint: Assume that "time" has started over at t = 0, with initial conditions ve (t) = Vo. b) From the results of part a), find the voltage across the resistor u,.(t).
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