Question

The voltage across a $100-\mathrm{mH}$ inductor and a $500-\mu \mathrm{F}$ capacitor is shown in Eigure P3,22. Plot the inductor and capacitor currents, $i_L(t)$ and $i_C(t)$, for $0<t<$ 6 s , assuming $i_L(0)=0 \mathrm{~A}$. Figure P3.22 

    The voltage across a $100-\mathrm{mH}$ inductor and a $500-\mu \mathrm{F}$ capacitor is shown in Eigure P3,22. Plot the inductor and capacitor currents, $i_L(t)$ and $i_C(t)$, for $0<t<$ 6 s , assuming $i_L(0)=0 \mathrm{~A}$.
Figure P3.22
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Principles and Applications of Electrical Engineering
Principles and Applications of Electrical Engineering
Giorgio Rizzoni,… 7th Edition
Chapter 3, Problem 22 ↓
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The voltage across a $100-\mathrm{mH}$ inductor and a $500-\mu \mathrm{F}$ capacitor is shown in Eigure P3,22. Plot the inductor and capacitor currents, $i_L(t)$ and $i_C(t)$, for $0<t<$ 6 s , assuming $i_L(0)=0 \mathrm{~A}$. Figure P3.22
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00:01 High friends here it is given there is a inductor of inductance point five in the in which at t is equal to zero current is zero potential across it is changing with time according to this graph this is 10 volt this is minus 10 volt 0 2 4 and 6 seconds we have to find the current in the first part current can be defined as one of all into area of vtgra for 0 to 2 second current is 1 .5 into 2 into 10 that is 40 mp a for 2 second to 4 second it is 0 for 4 second to 6 second 1 1 1 .5 2 into minus 10 that is minus 40 mp a so current time graph you will get 40 ampere minus 40 amp year 0 to 4 6 second be part power power is current into voltage for 0 to 2 second power will be 40 into 10 that is 400 watt for 2 second to 4 second power is 0 for 4 second to 6 second power is 10 into that is 400 watt so it is to be power invert 0 246 now energy stored is half an i sq squared for 0 2 4 6 now energy stored is half n i sq square for 0 to 2 second it is half 1 .2 second it is half 1.
03:09 5 into 4 d square.
03:18 So it is to be 400 june for 2 second to 4 second it is 0 and 4 second to 6 second it is again 400 june...
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