Consider the network
1. Determine the Zt
2. Find I
3. Calculate VR and VC.
4. Find P and Power Factor
Consider the network 1. Determine the Zt 2. Find I 3. Calculate VR and VC. 4....
1. Find the total impedance Zt through terminal a-b 2. Determine the current through the capacitor. Fig. 3.1 [20] Question 2 (10) For the network of Fig 32: 2.1 Find the total impedance Zrthrough terminal a-b. 22 Determine the current Ic through the capacitor. (10) 2.762 2k 12mAL 304 4.72 12V0 1012 6 K2 Fig. 3.2 16
Experimental: Freq (Hz) VL+RL (V) VR(V) VC(V) 600 0.167 0.249 1.09 700 0.228 0.229 1.123 800 0.302 0.352 1.158 900 0.398 0.417 1.217 1000 0.504 0.481 1.263 1100 0.626 0.547 1.305 1200 0.763 0.613 1.342 1300 0.905 0.674 1.361 1400 1.042 0.723 1.356 1500 1.163 0.754 1.322 1600 1.261 0.768 1.246 1700 1.326 0.761 1.177 1800 1.363 0.741 1.081 1900 1.375 0.71 0.982 2000 1.375 0.675 0.887 2100 1.364 0.639 0.799 2200 1.348 0.603 0.721 2300 1.33 0.569 0.65 2400...
(3.)(25 points) Consider the following electric power network illustrated in Fig. ure 1 below. 392 1992 6+ LINE V LINE LOAD LOAD 16 Figure 1 VR = 5.020 kV Vs = 5.0250kV Answer the following questions. (a.) Find ILOAD (b.) What is the power factor of the load? (c.) What is the complex power of the load? (d.) What is the complex power of the line? (e.) What is the complex power seen at the sending-end of the line? (f.)...
please solve the following (simple steps): Q1) i ii iii and Q2) i ii For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i for the following cases: i. ii, iii. R= 12%, R 20%, and R:-29%. 2) Using a square wave with a frequency of 200 Hz and 2-Vpp, simulate the relationship betwee the input, vi, and the output, v3,...
Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use the principle of superposition to (c) Determine the voltages v, V2, and v;3 i, l 80 Ω 50cos2000t V currents. 100 Ω 40 mHv, compute the currents io, il, i2, i3, and 4. + 24 v (d) Determine the power from the three S602 sources in the circuit Consider the network of Fig Pl.1. (a) 1. Label all node voltages and branch (b) Use...
4) Find the value of each resistor for the network of the Figure below. ER 120 v ŽRT 32R 5) For the network of the Figure below (a) Find the currents I, and 14. (b) Calculate the voltages V, and V3. 10 R; = 272 E60 R22707 1 2) For the network in the Figure below (a) Determine the current I. (b) Calculate the currents 12 and 13. (c) Determine the voltage level Va. E = 20 V RX30 TO...
QUESTION 1 +20 V a. Determine the mathematical expression for Av. b. Calculate Zi, Zo and Av for the given network. p-4.5 V i 10ΜΩ QUESTION 3 a. Design a voltage-divider amplifier such that AvNL > 350, Zo 7 kQ, Zin> 1 k2. Use a silicon transistor with r0-80 kQ, β-120 and a power supply of 20 V. b. Draw the diagram of the circuit you have designed. QUESTION 1 +20 V a. Determine the mathematical expression for Av. b....
Consider the circuit in figure 4. a) find the thevenin equivalent of the network connected to the inductor L1. b) find the mathmatical equations for the transient behavior of the current. iL(t) and the voltage vL(t) following the closing of the switch. c) determine the value of current iL at t= 20?s. Question 5 (10 points) (Obj. 4) Consider the circuit in Figure 4. a) Find the Thevenin equivalent of the network connected to the inductor L1.(4 points) mathematical equations...
Solved: Find Vo in the network in x + /u/0/?tab=rm&ogbl#inbox?projector=1 7. (a) Use source superposition to find Vo in the following circuit: 12/ov +-120 2/AC) (b) An industrial load consumes 100 kW at 0.707 pflagging. The 60 H line voltage at the load is 480 4V rms. The transmission-line resistance between the power company transformer and the load is 0.1 22. Determine the power savings that could be obtained if the pf is changed to 0.96 logging 0.10 w 480...
Question 1 (20 points: Events, counting, and properties f probabniny Consider the network shown below. There are two kinds of links in the network. Each link of kind o-p +0 fails with probability p and that of kind O 4+0 fails with probability q. Each link is assumed to fail independently of the other. We say that a path is successful if no link in the path fails. For example, the path S-B-T succeeds if none of the links S...