QUESTION 3
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Q: B-6-3. Plot the root loci for the system with K s(s+ 0.5)(x² + 0.6s + 10) G(s) H(s)-1
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Q: 2. Use source transformation to find Io in the following circuit.
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Q: 5.74 Find i, in the op amp circuit of Fig. 5.100. 0.9 V 10 ΚΩ Μ 100 ΚΩ Μ 20 ΚΩ 32 ΚΩ 1.6 ΚΩ 0.6 V
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Q: 1- Find the energies of the signals in Fig. below! 25int sint tot t 27 с -sint, b
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Q: me 8.51 Circuit for Problem 8.18. lk 1k ww 100k www LT1364 D Out
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Q: a b c 000 1 001 1 010 0 011 1 100 1 101 0 110 0 0 F
A: The basic digital circuit is solved as shown below.
Q: Determine the total resistance, RT, and current, I, for the circuit in Figure Q1(b). 30V I RT 5092…
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Q: 1502 60 V 8. The switch in Fig. below has been closed for a long time, and it opens at t= 0. Find…
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- Change the following normally open elements from the de-energized position to the energized position.B=6V R=12ohm L=70mH C=0.000025F17/ The charge across each capacitance when connected in a parallel connected capacitive circuit is ___________________. a. Same charges are observed across each capacitance b. Either same or different charges are observed across each capacitance c. None of the given option d. Different charges are observed across each capacitance
- How is part I Zeq=200-j30 and part II cApacitivec. I=0.5+0.25v  to what type of elements each equation corresponds?4) Determine the value of branch current, I1 and I25) Determine the value of voltage across resistor, R1, R2 and R36) Determine the value of voltage across capacitor, C1 and C27) Determine the value of voltage across inductor, L.
- please solve value of Capacitor with 0.1V Ripple. And draw output ripple waveform. Explain it one by one for me thanks..With a second .01-µF capacitor. Remove the jumper from points A and B. Carefully discharge C1 insert the second capacitor (C2)in series with C1 Insert a jumper between points A and B and note the charge time of C1and C2in series.The Charge time was approximately how many seconds? Since the charge time has decreased to ____________________ the value it was withonly C1 in the circuit, it may be concluded that the total capacitance has (increased ordecreased)? the new RC time is (double or half)? the original and the R has not been changed, we concludethat the new total capacitance is how _____µF.Given the following Resistances and Capacitors in Series and Voltage Source: R1 - 7 ohms R2 = 4 ohms C1 = 0.157 Farad C2 = 0.01 Farad Vs = 10,382 Volts Frequency = 86 Hz What is the Amplitude of the voltage across C1?