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christianerik
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If the switch is closed at t = 0, find the
current in the inductor at t = 0.224 s. Answer
in units of A.
&
Find the current in the switch at that same
time.
I know that i must use i = V/R(1 - e^-t/L/R) but can't seem to get the right answer.
Any help is appreciated...5 ohms
-------------^^^^^^^------I
I.......I
I...10 ohms...1.4 H...I
I------^^^^^^^^---&&&&--I
I.......I
I...S...30 V...5 ohms.I
I-------/..---I I----^^^^^--I3. The Attempt at a Solution
i = V/R(1 - e^-t/L/R + V/5 = (30 - V)/5
(V/10)( 1 - e^-(0.224*10/1.4) + V/5 = -V/5 + 6
0.1V(0.798)+0.4V = 6
(0.4+0.0798)V = 6
V = 6/0.4798 = 12.5 v
The inductor current at t = 0.224 s
i = V/R(1 - e^-t/L/R)
i = (12.5/10)[ 1 - e^-(0.224(10/1.4) ]
i = 0.9976 A
The switch current:
Is = i + V/5 = 0.9976 + 12.5/5 = 3.497 AWhat am I doing wrong?
If the switch is closed at t = 0, find the
current in the inductor at t = 0.224 s. Answer
in units of A.
&
Find the current in the switch at that same
time.
I know that i must use i = V/R(1 - e^-t/L/R) but can't seem to get the right answer.
Any help is appreciated...5 ohms
-------------^^^^^^^------I
I.......I
I...10 ohms...1.4 H...I
I------^^^^^^^^---&&&&--I
I.......I
I...S...30 V...5 ohms.I
I-------/..---I I----^^^^^--I3. The Attempt at a Solution
i = V/R(1 - e^-t/L/R + V/5 = (30 - V)/5
(V/10)( 1 - e^-(0.224*10/1.4) + V/5 = -V/5 + 6
0.1V(0.798)+0.4V = 6
(0.4+0.0798)V = 6
V = 6/0.4798 = 12.5 v
The inductor current at t = 0.224 s
i = V/R(1 - e^-t/L/R)
i = (12.5/10)[ 1 - e^-(0.224(10/1.4) ]
i = 0.9976 A
The switch current:
Is = i + V/5 = 0.9976 + 12.5/5 = 3.497 AWhat am I doing wrong?
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