Problem #2: Assume that the circuit has heen connected for a very long time. (Note: x - last digit of your ID#. If this is "zero", use "1" ampere) (a) As time approaches infinity, what will happen to the capacitor and inductor? ( -> (c) From your circuit in (b), determine the "steady-state" or "final" values of ve, ic, i, and v. (-- (b) From your answer in (a), draw the equivalent circuit (label appropriately).. 10 A 4 kf 5 k lie li. 3 uF : I kl Ve 2 kN VL= 4 nH

The switch in the circuit shown has been closed for a long time and is opened at t=0. 
Find:
a.) v at time t= 0^-
b.) v at time t=0^+
c.) the time constant for t>0
e.) the initial energy stored in the capacitor
f.) the length of time required to dissipate 50% of the initially stored energy.

please help me, and please show the complete solution so that I will understand the process.

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Problem #2: Assume that the circuit has heen connected for a very long time. (Note: x - last digit of your ID#. If this is "zero", use "1" ampere) (a) As time approaches infinity, what will happen to the capacitor and inductor? ( (b) From your answer in (a), draw the equivalent circuit (label appropriately).. (c) From your circuit in (b), determine the "steady-state" or "final" values of ve, ic, i, and v. (-- 10 A 4 kfl 5 k lie li. 3 uF : 1 kf Ve 2 kN VL= 4 nH