(Solved): 1. Find the capacitor's initial voltage Vc(0) 2. Find the capacitor's final voltage Vc( 3. If ...

1. Find the capacitor's initial voltage Vc(0)

2. Find the capacitor's final voltage Vc(??

3. If C=3F, find the time constant T

4. The voltage v(t) for all t>0s

1. Find the initial inductor current i(0)

2. Find the final inductor current i(?)

3. Find the time constant T

4. Find the inductor voltage v(t) for t>0

 

1. Find i(t=0s).

2. Find i(?)

Please answer all the questions! Thanks you!

For the circuit below, the switch in the figure below has been in position a for a long time. Consider the circuit below. Find the time constant \( \mathcal{T} \) if \( \mathrm{C}=2 \mathrm{~F} \). Determine the inductor current \( \mathrm{i}(\mathrm{t}) \) for all \( \mathrm{t}>0 \) if \( \mathrm{L}=2 \mathrm{H} \). Obtain the voltage \( \mathrm{v}(\mathrm{t}) \) for all \( \mathrm{t} \). (Hint: Ohm's law will be needed) For the circuit below Find \( v_{c}(\infty) \) \( v_{c}(t=2 s)=v_{c}(2) \) For the circuit below For the circuit below find the equivalent resistance seen by the inductor for \( \mathrm{t}>4 \mathrm{~s} \).