For the following circuit, E 12 V w 20 Ω LiL + L2H UL www 10 Ω Figure 3: the wave form of V, & iL. D) Sketch For V₁ = [-12 Ve */ 66-67115 y O 55=333.35ms > t(ms) -12 女 JVLMA. For IL : [-400mA (1-e² 66.67ms] 57=333.35ms 40-400 ViL (MA) 1 E(ms) ST 5(66.67ms) b ST = 333,35ms

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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(a) Determine τ

τ = 66.67ms


(b) Write the mathematical expression for the voltage VL using the defined
polarities and direction.

VL= -12Ve-t/66.67ms


(c) Write the mathematical expression for the current IL using the defined
polarities and direction.

IL = -400mA(1 - e-t/66.67ms)

(d)  Sketch the waveforms of vL and iL

 

For the following circuit,
E
12 V
w
20 Ω
LiL
+
L2H UL
www
10 Ω
Figure 3:
Transcribed Image Text:For the following circuit, E 12 V w 20 Ω LiL + L2H UL www 10 Ω Figure 3:
the wave form of V, & iL.
D) Sketch
For V₁ = [-12 Ve */ 66-67115 y
O
55=333.35ms
> t(ms)
-12
女
JVLMA.
For IL : [-400mA (1-e² 66.67ms]
57=333.35ms
40-400
ViL (MA)
1
E(ms)
ST
5(66.67ms)
b
ST = 333,35ms
Transcribed Image Text:the wave form of V, & iL. D) Sketch For V₁ = [-12 Ve */ 66-67115 y O 55=333.35ms > t(ms) -12 女 JVLMA. For IL : [-400mA (1-e² 66.67ms] 57=333.35ms 40-400 ViL (MA) 1 E(ms) ST 5(66.67ms) b ST = 333,35ms
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