Five devices are connected as shown in Figure 1. The current i+(t) and voltage vs(t) are plotted in Figure 2 and Figure 3, respectively. a. Find the numerical expressions for the power delivered by device #1 as a function of time and make a plot of poEL by D1 (t). Consider the whole time-range. b. Determine time intervals when the power is delivered and when it is absorbed by device #1. c. Do electrons gain or lose energy for t<2[s] while passing through device #1? d. Find the current flowing in device #2 knowing that its value is two times smaller than in(t) and that device #2 always absorbs the power. e. Plot iz(t) for 0

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can someone help me with parts A-C and explain the concepts for the slope parts explain how exactly you are getting those numbers

 

Five devices are connected as shown in Figure 1. The current i-(t) and voltage va(t) are
plotted in Figure 2 and Figure 3, respectively.
a. Find the numerical expressions for the power delivered by device #1 as a function of
time and make a plot of poEL by D1(t). Consider the whole time-range.
b. Determine time intervals when the power is delivered and when it is absorbed by
device #1.
c. Do electrons gain or lose energy for t<2[s] while passing through device #1?
d. Find the current flowing in device #2 knowing that its value is two times smaller than
in(t) and that device #2 always absorbs the power.
e. Plot iz(t) for 0<t<6[s].
i
i4
Vs
iz
Figure 1.
i,() (mA]
t[s]
4.
Figure 2.
V(1) [mV]
t[s]
Transcribed Image Text:Five devices are connected as shown in Figure 1. The current i-(t) and voltage va(t) are plotted in Figure 2 and Figure 3, respectively. a. Find the numerical expressions for the power delivered by device #1 as a function of time and make a plot of poEL by D1(t). Consider the whole time-range. b. Determine time intervals when the power is delivered and when it is absorbed by device #1. c. Do electrons gain or lose energy for t<2[s] while passing through device #1? d. Find the current flowing in device #2 knowing that its value is two times smaller than in(t) and that device #2 always absorbs the power. e. Plot iz(t) for 0<t<6[s]. i i4 Vs iz Figure 1. i,() (mA] t[s] 4. Figure 2. V(1) [mV] t[s]
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