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Q: Q3) Find the value of (1) in the circuit shown using Nodal analysis. V1 80 Amp
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Q: Q4) Find the nodal voltage in the circuit shown? R4
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Q: Using Thevenin's Theorem to find the value of the load resistande RL in the circuit shown which…
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Q: Choose the values of R1 and R2 shown to set I2 = 250 μA and I1 = 50 μA if VCC = VEE =12 V. What is…
A: The current flowing through the collector terminal of the transistor, Q21 is equal to the current…
Q: +Vx Find V, in the circuit in Fig. Vx + ww 12 0 12V 21,く土 V.
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Q: Task Sketch a graph of V₁ vs V
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Q: Choose the values of R1 and R2 shown to set I3 = 300 μA and I1 = 75 μA if VCC = VEE =15 V. What is…
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Q: c. Find the unknown value in the following relation. Show the steps clearly. (AD3. BE)16 – (?)g =…
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Q: t.W/In the cet show in fig balw find 20Om H 文 mm. of 5uf
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Q: The variable resistor (RL) in the circuit in Fig. below is adjusted for Q// maximum power transfer…
A: To find RL which will be equal to the resistance to delivermay.powerTo find Rth deactivate sources…
Q: w.5> Find Thevenins equivelent eircuit for the cet shown RA
A: As per the guidelines of Bartleby we have to solve first question only we request you to upload the…
Q: Determine Vand I for the network in Fig. T= + mA V R₁60 R₂1252 e
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Q: Q4/B/ Find currents and voltages in the circuit shown in Fig. a + 30 v (+ ww
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Q: C) Using your knowledge of Kirchhoff's Laws you have acquired in
A: The equivalent circuit with voltage drops polarities across each resistor based on current…
Q: Find the current and voltage of the 3-2 resistor using using Kirchhoff's laws.
A: The solution can be achieved as follows.
Q: 22) Solve the network below for X. A C D A) A + BC + D B) (AC + BC)D C) ((A + B)C) + D D) D(A + B +…
A: Given circuit, F1=A+BF2=A+BCX=A+BC+D
Q: (B) for the circuit shown in Fig.(b) ,calculate RAB- A R9 ww 6. R1 R7 12 R3 12 RAB R8 ww 12 R5 12 R2…
A: Equivalent resistance-The equivalent resistance is where the overall resistance is connected in…
Q: * Q2: Find the (Rth and Vth) by using thevenin's theorem in the circuit as shown below? R1 www 470Ω…
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Q: b) Solve the given two numbers using BCD addition. (C5) ,„ + (B2) „ =(?),D 16 16
A: Given, C516+B216=?BCD
Q: होल FSV 322 F3V y Is 352 find current in So using Norton's Thesson A
A: We need to find out current through given resistor by using of Norton Theorm
Q: Find RAB in the circuit shown 2 k2 4 k2 12 k2 R4B 3 k2 6 kN 4 kN BO W
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Q: determine the power supplied by each source in the circuit shown using network topology ll 5LO° A…
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Q: Q2: Find Rab for the circuit in Fig. a www Rab 8Ω b ww
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Q: For the attached network answer the following questions: 1-What is the name of the network? 2-What…
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A: The circuit in Fig. 4.9 involves a dependent source, which must be leftintact. Let
Q: Q2/Reduce the system below by using the block diagram reduction:
A: YsRs=1+G1G2G3G4G6H4+G5G41-H3G1G5G41+G6H61-G3G4G5+G3G2H2+G2G3H2-1 Step (1) by combining the block of…
Q: S1=10KVA S2=20KVA PF1=0.8 PF2=0.9 S total=?
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Q: For the network , determine : a . In and VGS b . VDS . c . VD .
A: The required parameters can be calculated by using the DC analysis of the amplifier circuit.
Q: (A):For the circuit shown in fig.(1), Find R 102 ww ww 32 www 120 ww ww ww
A: According to question w ehave ton calculate the value pf Rab
Q: V; = 40 V R4 10 k2 R1 3.3 k2 10 V RL Q2 2 k2 R3 5 k2 R2 2.2 k2 G16 0 170 C18
A: We need to calculate output power across load resistance , first we will find output voltage
Q: Determine VBC- 2.7 k£2 180 k2 10 uF B = 200, r, = 2 10 µF
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Q: Q4/B/ Find currents and voltages in the circuit shown in Fig. a + 30 V ww ww
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Q: Q4) Use Norton's theorem to find the current through and the voltage across the 902 resistor for the…
A: Steps First find R_N by making voltage source short circuit and current source open circuit Find…
Q: Q2:-For the network of fig. Find:- a-The Thevenin equivalent? b- The current through load resistor.…
A: According to the question we have to find the value of Thevenin equivalent, the current through RL,…
Q: Hiw u] if T.= 2mA in the circuit in fig. find Vs. %3D and Power (Iks). in Vs 3kn
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Q: Q5. Using the Norton's theorm, determine the current through the 30 resistor for the network hon R2…
A: In this question we will find current through 3 ohm using Norton's theorem...
Q: D4D1 + RL 1.2K + VsN) D3 YD2
A: The output voltage is independent of the load value. The output of a single phase bridge rectifier…
Q: 5202 1202 R3 2202 R1 R2 B 5002 120Ω
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Q: H.W.(4):FindV,in the network in Fig. shown. ww 240V en 140 jaa 40 2.V 10 V2a [Answer:]
A: There are 5 meshes and coupling inductors in the circuit. Consider the 5 mesh currents as…
Q: Determine v1 and v2 in the circuit in the fig 2Ω ww 3 A 82 12 V 56 ww
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Q: EXAMPLE Find the total resistance of the network in Fig. HW R R2 A R3 R4 E 12 12 R6 R Rg R9 R10 0.5…
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Q: Q2: A) in Ac bridge used this equation Lx = R2 Ls\ R1. Prove &draw? %3D
A: “Since you have asked multiple questions, we will solve the first question for you. If youwant any…
Q: G4 C G2 G3 G6 + R(s) G1 H1 G5 H.
A: Simple problem on control analysis. look below for the solution once
Q: In the ciwit shown find the vawe of Vx A ix 132 JAVA Vx CS Escaneado con CamScanner
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Q: 2012, R2 = 452, R3 = 1252, R4 = 652, R, = 152, R6 = 212) R2 ww %3D R1 R5 R3 ww a R6 R1 R4 b ww
A: If n number of resistor having resistance R1,R2.....................Rn is connected in series then…
Q: FIND VBC
A: The required parameters can be calculated by using the DC analysis of the amplifier circuit.
Q: EXAMPLE Find the total resistance of the network in Fig. HW R1 R2 R3 R4 Rs IN R6 Rg R9 R10 : 0.5 R11…
A: To find the equivalent resistance between terminals A and B
Q: Q4) Use Norton's theorem to find the current through and the voltage across the 992 resistor for the…
A: current in branch AB is calculated by notorn theorem.is shown as
Q: X (n) = G o2] ycn)=? 23/ find and Pot Q3/find and Plot
A: In this question we will find output of system using convolution.... Note:- as per our guidelines ,…
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- Find the total impedance, voltage drop on the 100-ohm resistor, draw the phasor diagram of the voltage and current at R1, total power (apparent) delivered by the current source, draw the phasor diagram of the voltage and current at the source. Also, is the circuit inductive, capacitive, or neither (resistive)? please give the step-by-step solution NOTE: Polar form for Voltage & Current. Rectangular form for ImpedanceNOTE: Polar form for Voltage & Current. Rectangular form for Impedance Find the total impedance of the circuit, total power (apparent) delivered by the current source, Draw the phasor diagram of the voltage and current at the source, the current passing through the R2 and L1 branch, Draw the phasor diagram of the voltage and current at the R2 and L1 branch. Also, is the circuit inductive, capacitive, or neither (resistive)?Exercise 11) Transform the circuit in phasor domain representation2) Determine the value of total impedance, ZT3) Determine the value of total current, IT4) Determine the value of voltage across resistor and capacitor5) Convert in rms values.
- 1.1 We have two loads in delta and another in star in parallel, the impedances of the branches of the delta are equal and we have that RΔ=1p.u. and XΔ=0.75 p.u., while in the star we have equal values of the branches, but formed by admittances where we have the conductance in parallel GY=0.64 p.u. and inductive susceptance of BY=-j0.48 p.u. If the loads are being supplied by a positive sequence balanced three-phase source with line-to-line voltage of phases a and b of Vab=1∠ 30º, if the base values are line-to-line base voltage of 1kV and three-phase base power of 100kW. DetermineA) Line and phase voltages, line and phase currents of the load in delta, line and phase voltages of the star, line and phase currents of the star.B) Obtain separately the phasor diagram of the delta and star load with the values obtained in A), indicate on the scale that these are 1 p.u.=5cm for example.C) obtain the power triangle and the power factor separately for each load. D) Obtain the power…FET: Plot the plot the AC & DC load line and Find the Q point. IDSS = 5 mA VGSOFF = - 5VIDSS=8mA , VP =-4VTo help plot the DC load line VGS=VG-IDRSa)Determine the value of Vgs when ID=1mAb)Determine the value of Vgs when ID=2mAc)Determine the value of Vgs when ID=3mAd)Determine the value of Vgs when ID=4mAe)Attach a Plot of JFET Characteristic Curve as shown in Figuref)What is the approximate VGSQ?g)What is the approximate IDQ in mA?h)Determine source voltage VS.i)Calculate the drain voltage VD.j)Calculate the drain-to-source voltage VDS.
- For the circuit below, choose the load impedance ZL so that the power dissipated in it is a maximum. How much power will that be?Using the node-voltage method, determine the magnitude of the phasor voltage V1; that is, find |V1| in Volts (peak). The values of the phasor voltage sources in the above diagram are VA = 9 and VB = 4 Volts. The resistor values are R1 = 10 Ω and R2 = 16 Ω, and X1 = 2 for the capacitor giving an impedance of -j2 Ω. Express your answer using 3 significant figures.The fixed-value components of a Hay Bridge are R2 = 6Ω, and C1 = 2µF. At balance R1 = 16Ω and R3 = 11Ω. The supply frequency is 50 Hz. Calculate the value of the unknown impedance? Calculate the Q factor? What is the advantage of this bridge? The value of the variable resistance of the approximate method for measuring capacitor is R = 80Ω. The voltage across the variable resistance and the capacitor are 20V and 30V. Find the capacitance value if the supply frequency is 60Hz?
- If the values of real power and reactive power is specified for a bus, then it is called as PQ bus. Select one: True FalseFor the circuit shown in Figure,a. Find the Thévenin equivalent circuit for the source.b. Find the power dissipated by the load resistor. c. What value of load impedance would permitmaximum power transfer?The voltage source is sinusoidal with frequency60 Hz, and its polarity is such that the current fromthe voltage source flows into the 10-Ω resistor.In the circuit in the figure, there is a load formed by connecting the resistor R0 between the terminals a and b and the inductance L0 in series. The amplitude of the voltage Vs (t) is √2 150 volts, the phase angle θs = 0 degrees, the period is T = 200π microseconds. Since R = 300OHM and C = 1 microFa) If the load phase angle is constant θL = 60 degrees, find the values of R0 and L0 that enable the load to draw the maximum average power from the circuit.b) Calculate the average power on the load.