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>0e.) the initial energy stored in the capacitorf.) 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. 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 A4 kfl5 klieli.3 uF :1 kfVe2 kNVL= 4 nH

Answered: Image /qna-images/answer/2893bab1-b6f5-40a3-92f0-e4072ecc2213.jpg

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

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

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter6: Power Flows

Section: Chapter Questions

Problem 6.27P

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