37) a) v(0) 0.75 V vo (0-) = v b) (0)=0.75 V v (0+) = 3 16 V c) vc (10 ms) = 7.7 m V 7.7 vo (10 ms) mV 4 d)) vc (12 ms) = 3.1 mV 3.1 vo (12 ms) mV 4 37. Determine vc(t) y vo(t) como está marcado en el circuito representado en la figura 8.71 parat igual a (a) 0¯; (b) 0+; (c) 10 ms; (d) 12 ms. 2 ΚΩ ww 4 ΚΩ ww + 1 ΚΩ 5 ΚΩ ww w = 0 2 ΚΩ. 1 μF VC 6 ΚΩ 1 V + +

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Determine vc(t) and vo(t) as marked on the circuit depicted in Figure 8.71 for t equals (a) 0; (b) 0+; (c) 10 ms; (d) 12 ms.

The solutions are attached in the second image

37)
a) v(0)
0.75 V
vo (0-) =
v
b)
(0)=0.75 V
v (0+) =
3
16
V
c) vc (10 ms) = 7.7 m V
7.7
vo (10 ms)
mV
4
d)) vc (12 ms) = 3.1 mV
3.1
vo (12 ms)
mV
4
Transcribed Image Text:37) a) v(0) 0.75 V vo (0-) = v b) (0)=0.75 V v (0+) = 3 16 V c) vc (10 ms) = 7.7 m V 7.7 vo (10 ms) mV 4 d)) vc (12 ms) = 3.1 mV 3.1 vo (12 ms) mV 4
37. Determine vc(t) y vo(t) como está marcado en el circuito representado en la figura 8.71
parat igual a (a) 0¯; (b) 0+; (c) 10 ms; (d) 12 ms.
2 ΚΩ
ww
4 ΚΩ
ww
+
1 ΚΩ
5 ΚΩ
ww
w
= 0
2 ΚΩ.
1 μF
VC
6 ΚΩ
1 V
+
+
Transcribed Image Text:37. Determine vc(t) y vo(t) como está marcado en el circuito representado en la figura 8.71 parat igual a (a) 0¯; (b) 0+; (c) 10 ms; (d) 12 ms. 2 ΚΩ ww 4 ΚΩ ww + 1 ΚΩ 5 ΚΩ ww w = 0 2 ΚΩ. 1 μF VC 6 ΚΩ 1 V + +
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