The circuit in Figure 3 represents a model for an automobile airbag igniter. Using the time domain approach, determine the time it takes the voltage across the igniter to reach its first positive peak after switching from A to B. Here R= 3N, C = 1/30 F, L = 60 mH. A B Airbag igniter t=0 12 V C R Figure 3

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The circuit in Figure 3 represents a model for an automobile airbag igniter. Using the time domain approach, determine the time it takes the voltage across the
igniter to reach its first positive peak after switching from A to B. Here R= 3N, C = 1/30 F, L = 60 mH.
A
B
Airbag
igniter
t=0
12 V
C
R
Figure 3
Transcribed Image Text:The circuit in Figure 3 represents a model for an automobile airbag igniter. Using the time domain approach, determine the time it takes the voltage across the igniter to reach its first positive peak after switching from A to B. Here R= 3N, C = 1/30 F, L = 60 mH. A B Airbag igniter t=0 12 V C R Figure 3
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