Q2/ find Rab in the figure 4 102 202 102 302 102 20 2 Fig.4
Q: Q.2 Find R; for the network of Fig. 3: RI R. 10 2 E 6V 20 12
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Q: 1. Find VAR in the given network: 20 V 4 R1 25Q R3 402 Ry 150 R4 102
A: Given
Q: Determine Vc and Ig for the network of Fig. 4.151. -22 V 2.2 k2 82 k2 = 220 16 k2 0.75 k2 FIG. 4.151
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Q: 1. Given Vc =8 V for the network of Fig. 4.89, determine: (c) B. (a) Ig. (b) Ic. (d) Vce. 18 V 3.9…
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Q: Q4: Find Vx in the network in fig.(4) using mesh (loop) analysis. 120 M m 30v vx ≤ 4 Fig.4 lon Yvx
A: In this question, We need to determine the voltage Vx using the mesh analysis? Here 2 mesh loops…
Q: Homework (1): Using superposition, detemine the current through the 4- N resistor of Fig. below. R…
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Q: Q2 Calculate the output voltages V, and Va in the circuit of Fig. 4.29. 2000 K) 20 k2 V =0.2 V 2XXI…
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Q: ww 3 A 6 V Fig.3
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Q: 2.13 For the circuit in Fig. 2.77, use KCL to find the branch currents I to I4. 2 A 12 7 A 14 3 A 13…
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Q: *53. Calculate the current I in the circuit of Fig. 4.149. B= 200 1.5 kN 5.1 V 1.2 kN -12 V FIG.…
A: I is the collector current which is 3.648 mA Detail solution is given in the image
Q: In the network of Fig.4, find Vx-y using Thevenin's theorem. R₁= 392 R₂= 202 2A (^ I R₂=202 0-1V 02…
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Q: 4 Use source transformation to find current I in Fig. 4.49 202 ww 52 b. ww- 20 mV 362 2 mA (a) FIG.…
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Q: Q2 Calculate the output voltages V2 and V3 in the circuit of Fig. 4.29. 20X0 Ka 20 k2 L; = 0.2 V +…
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Q: Determine the maximum power delivered to the variable resistor R shown in the circuit of Fig. 4.136.…
A: The maximum power absorbed by the R can be obtained by calculating the Thevenin's equivalent…
Q: 1/ Use superposition principle to find i, in Fig. 1 122 ww 15 V 102 40 2 4A Fig.1 ww
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Q: 4.For the circuit shown in fig.4. Using superposition theorem, find the current through the resistor…
A: RESISTOR (R): A resistor is a passive electrical component with the primary function to limit the…
Q: 22. Referring to the circuit of Fig. 4.48, obtain a numerical value for the power supplied by the 1…
A: Since you have asked multiple questions in a single request, we will be answering only the 1st…
Q: 2.13 For the circuit in Fig. 2.77, use KCL to find the branch currents I to l4. 2 A 7 A I4 ЗА I3 4 A…
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Q: 32. Determine numerical values for each of the three mesh currents as labeled in the circuit diagram…
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Q: 56. Determine Ig and Vc for the network of Fig. 4.152. +8 V 3.3 kn B =110 3.9 k. 0-12 V Ve FIG.…
A: Given data, β=110V=8 VRE=3.3 kΩRC=3.9 kΩVCC=-12 V
Q: If Req = 50 N in the circuit in Fig. 2.101, find R. %3D
A: If two resistors are connected in series then its equivalent resistance is the sum of the individual…
Q: 2.13 For the circuit in Fig. 2.77, use KCL to find the branch currents I to l4. 2 A 12 7 A 14 4 A 3…
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Q: 6N. R R6 R4 4N. R E, 15 V 3 A Fig (3)
A: 3A)Given
Q: 12 V 2 mA RC RB 7.6 V VB VCE B = 80 02.4 V RE FIG. 4.123
A: The solution is given below
Q: Example 4.6: Find the value of RL for maximum power transfer in the circuit the maximum power. 3 2 a…
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Q: 2.13 For the circuit in Fig. 2.77, use KCL to find the branch currents I¡ to I4. 2 A 7A ЗА 4 A…
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Q: Q2 Calculate the output voltages V, and Va in the circuit of Fig. 4.29. 2000 KO 20 k2 12 V =0.2 V…
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Q: 56. Determine Ig and Vc for the network of Fig. 4.152. +8 V 3.3 ka B- 110 3.9 ka 0-12 V Ve FIG.…
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Q: 1. Find VAB in the given network: 20 V 4 R1 25 2 R2 40 2 VAB R3 15Q R4 10Ω
A: In this question, Find the voltage across the A and B. We are using the voltage division method.…
Q: 7.6 V 024 V Figure 4.78 Problem 7 1. Given the information provided in Fig. 4.78, determine: (a) Re.…
A: From given collector current find emitter current and than find Emitter resistor and also calculate…
Q: 4. Given the information appearing in Fig. 4.82, determine: (a) Ic. (b) VE. (c) Vec (d) VCE- (e) VB.…
A: The solution can be achieved as follows.
Q: 40. Given Ve = 8 V for the network of Fig. 4.140, determine: a. Ig. b. Ic с. В. d. VCE-
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Q: 54. Determine Vc, VCE, and Ic for the network of Fig. 4.150. -12 V Ic 3.3 k2 510 k2 oVC VCE B = 100
A: To find the Voltage Vc , Ic, and Vice of the given PNP transistor
Q: 4. Determine the value of the voltage labeled vy in Fig. 4.34. 30
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Q: 56. Determine Ig and Vc for the network of Fig. 4.152. +8 V 3.3 k2 B = 110 3.9 k2 o-12 V Vc
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Q: 10 Using superposition, determine the voltage labeled Vx in the circuit represented in Fig.4. 3Ω 1Ω…
A: In this question, We need to calculate the value of voltage VX using the super position theorem.…
Q: 2.15 Find I and Vab in the circuit of Fig. 2.79. 10 V 5Ω а -어 V ab 8 V 30 V
A: So first we need current I Then we will apply kvl to get Vab
Q: Find / and V, in the circuit of Fig. 2.98 if the current through the 3-2 resistor is 2 A. ww 2A 102…
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Q: 1. Calculate Vx in the circuit of Fig1. (hint: use source transformation) -12 Q 80 j6Q ell 40 /30° V…
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Q: 05/ Using a 4-Y or Y-A conversion, find the current I in each of the networks in Fig. 5. www 4 kfl…
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Q: Q.4: Using a A-Y or Y-A conversion, find the current I in the network of Fig. 4. 6 kN 4 ΚΩ 4 kN 400…
A: Given circuit,
Q: 9+16 V Emitter Bias Circuit 12 k2 For the network of Fig. 4.136, determine: a. Ip. b. Ic- c. VCE- d.…
A: In a BJT , we know that , Ic=βIbIe=βIb+IbVBE=0.7 Volt Now applying KVL from Base terminal to emitter…
Q: btain numerical values for the two mesh currents i¡ and iz in the circuit own in Fig. 4.61. 12 V 14…
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Q: Find the Thevenin's circuit with respect to the a-b terminals for the network shown in Fig.3 (b).…
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Q: 4.4 For the circuit of Fig. 4.10, compute the voltage across each current source. Ans: 5.375 V, 375…
A: By node 1, this only we can find by the node 1 V11/2-4=0 At node 2, V21/6-9=0
Q: Find the Req. between points A and B in the circuit below. Figure (1) R R R B R R= lon Fig. (1)
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Q: 2- Find the number of branches and nodes in the circuits of Fig. (2). 12 V 2Ω 1 A 4 A 3Ω 1Ω 5Ω
A: node is interconnection point of two or more element. Branch is element between two nodes.
Q: Home Find the maximum power that can be delivered to the resistor R in the circuit of Fig. 4.132. 10…
A: Given here a electrical circuit and asked to find maximum power transfer to the resistor R.
Q: j4 2 ll 4. Find current Io in the ww network of Fig. 1.32. I, 5/0° A -j2 2 -j2 2 Fig. 1.32
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Q: Q) In the circuit shown in Fig.d Calculate (I) Using Current divider rale. 24V Ans: (0.75 A) Fig. 1
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- Please answer all subpart please Asap for like this please all subpart...In the figure below, if Vcc:12V, VBB= 5V, β:100, Rc: 3 kΩ, Rb= 200 kohm, how many volts will Vce be (take VBE=0.6 V)? Please choose one: A.6V b. 4.2 V c. 3.7 V d. 2.5V E. 5.4Vdetermine all the voltages and currents ,(Eth, VR1, VR2) VB,VC,VE, VCE,VCB, IB, IC,IE, (I'C).Use Beta DC = 100
- Given the range . Find the per scale value for each range based on the encircled basis only. (Follow the line of the black encircled basis) (wt solutions pls asap will rate helpful if perfect) Range Per scale value 0.1 0.5 2.5 10 50 250 1000Please answer all subpart I will like it please ASAP for like this pleaseFor β = 80, VBE = 0.7 V and VE = 4.5 V, determine a. IC b. VB c. VCE d. R2
- Find the value R2 If you know that value Ic=3.2 mA, VCE=5 v and Betta=100HW. Determine the value R, of that will draw the maximum power P, from the rest of the circCuit in figure below. Calculate the maximum power. Answer: 4.22 2, 2.901 W.A resistor and a capacitor are connected in series across a supply of 250 V. When the supply frequency is 50 Hz the current in the circuit is 5 A. When the supply frequency is 60 Hz, the current is 5.8 A. Find the value of the resistance. Ans: ___ ohms