t= 0 66 22 S22 N 30 н 27 V 0.32 mF v(t) i(t) S46 N After the switch opens, this circuit can be represented by the differential equation d 2i(t) di(t) + 48.882 dt + 176.77i(t). 42.614 = The natural response is In(t) = Aje3.9326t + Aze -44.949t А. di(0) dt.( di(0) The coefficients A1 and A2 depend on the initial conditions, v(0) , (0) and is the derivative of t) evaluated dt di(0) at time t= 0 ) Determine the values of V(0) , ¡(0) and dt
t= 0 66 22 S22 N 30 н 27 V 0.32 mF v(t) i(t) S46 N After the switch opens, this circuit can be represented by the differential equation d 2i(t) di(t) + 48.882 dt + 176.77i(t). 42.614 = The natural response is In(t) = Aje3.9326t + Aze -44.949t А. di(0) dt.( di(0) The coefficients A1 and A2 depend on the initial conditions, v(0) , (0) and is the derivative of t) evaluated dt di(0) at time t= 0 ) Determine the values of V(0) , ¡(0) and dt
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Z Your answer is partially correct. Try again.
t= 0
66 22
>22 Q
30 н
27 V
0.32 mF v(t)
i(t)
$46 N
After the switch opens, this circuit can be represented by the differential equation
d ?i(t)
di(t)
+ 48.882
dt
42.614 =
+ 176.77 (t).
dt2
The natural response is
in(t) = A,e 3.9326t
-44.949t
+ Aze'
А.
di(0)
di(0)
The coefficients A1 and A2 depend on the initial conditions, v(0) , (0) and
is the derivative of t) evaluated
dt
dt
di(0)
dt
at time t = 0 ) Determine the values of V(0) , i(0) and
:
di(0)
V(0)
19.872
i(0)
0.108
A and
Expert Solution
Step 1
for t <0 circuit reached steady state, capacitor acts as open circuit and inductor acts as short circuit. now we have to find the steady state voltages and currents. as capacitor does not allow the sudden changes in voltages and inductor does not allow sudden change in the currents ,current in inductor is same as at t=0- and t=0+and same is true for capacitor voltage. Now we have to find out the new voltage across the inductor when switch is closed.
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