Let the EMF be E = 10V, r = 20 , R = 50 22 and L = 0.6 H. Assume the switch is in position (a) for a long time and then is switched into position (b) at t = 0. a. What is the current through the inductor right after the switch is thrown? b. At what time is the current equal to 0.3 Amp? Show work.

Let the EMF be E = 10V, r = 20 , R = 50 22 and L = 0.6 H. Assume the switch is in position (a) for a long time and then is switched into position (b) at t = 0. a. What is the current through the inductor right after the switch is thrown? b. At what time is the current equal to 0.3 Amp? Show work.

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Question

2. Let the EMF be E = 10V, r = 20, R = 50 2 and L = 0.6 H. Assume the switch is in position (a) for a long time
and then is switched into position (b) at t = 0.
a. What is the current through the inductor right after the switch is thrown?
b. At what time is the current equal to 0.3 Amp? Show work.

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Step 2: (b) After the switch is thrown to position (b) at t = 0:

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