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Q: Please determine the AC voltage gain.
A: The Amplifier circuit is given as We need to calculate the voltage gain of the amplifier.
Q: 11.10 For the network shown, find Y when 1 2 + Y + Vo Synthesize Y as an L-C admittance. Vo s(5² +…
A: V2Vo=12+YV2Vo=SS2+32S3+S2+6S+1
Q: Calculate inductance L2 value, when current / gets it's highest value. What is current / and power P…
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Q: 2. Using Kirchhoff's Laws, prove that the sum of the power of all the elements in the following…
A: here we have to prove that sum of powers equal to 0
Q: Which of the following are the attributes of an ideal FET analog switch? Oa. When closed, it is in…
A: It is given that: Which of the following are the attributes of an ideal FET analog switch?a. When…
Q: 3) Find Vo in the network 24V (+ 3 ΚΩ 6 ΚΩ ΜΜ 4 MA 12 ΚΩ 6 ΚΩ 4 ΚΩ www 8 ΚΩ 12 ΚΩ 4 ΚΩ + Vo
A: In this question we need to find the voltage Vo shown in the given circuit. We use nodal analysis…
Q: 3 A4 €€€ www R1 R2, and R3 R1 ΖΩ ww R3 12 Q2 R2 6 Ω D Using nodal analysis for the above circuit,…
A: We need to find out the current through each resistor for given circuit by using of nodal analysis.
Q: Consider the system described by the transfer function Y(z) z² +0.9z U(2) 2² -1.5z+0.5 G(z)= ) Find…
A: Given Data: A transfer function of a system as, Gz=z2+0.9zz2-1.5z+0.5 To Find: State Space…
Q: What is the time constant (accurate to 1%) for the first order transient that occurs in the voltage…
A: current IS = 3 mA resistances are R1 = 3000 ohms R2 = 4100 ohms R3 = 4400 ohms C = 80 nF
Q: For the remainder of the day and overnight, assume the solar panel produces zero current, but its…
A: According to the question, For the remainder of the day and overnight, assume the solar panel…
Q: A UPS is driving a 600 W load which has a lagging power factor of 0.8. The efficiency of the…
A: A UPS is driving a 600 W load. P=600 W, Lagging power factor=0.8 cos ϕ=0.8 Efficiency of the…
Q: 5. For the following circuit, solve for i(t) at t >0. 60 1.5 Ω
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Q: Determine the following for the network below. R1 = 1 kiloohm R2 = 3 kiloohm R3 = 3 kiloohm R4 = 3…
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Q: Q2) For the single line diagram shown in figure below, find the (L-L) and (L-L-G) fault current at…
A: For the single line diagram shown in figure below, to find the (L-L) and (L-L-G) fault current at…
Q: A single-phase induction motor draws a current of 0.5 A at 230 V and 0.6 lagging p.f. If it runs a a…
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Q: Compute the Fourier transform of the sequence, x(n) given below. Sketch phase and amplitude plots…
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Q: Which of the following methods is convergence faster to the root; 1) Secant method, 2) Muller…
A: The objective is to determine the method that converge faster to the root.
Q: Why must the gate-to-source voltage of an n-channel JFET always be either zero or negative? O a. To…
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Q: Given the following charge and conductor configuration in free space, which of the following is true…
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Q: In a flux meter the air gap flux density is 0.04 Wb/m2, number of turn on moving coil are 50 & the…
A: A flux meter- Air gap flux density=0.04 Wb/m2 Number of turns on moving coil=50, Area of moving coil…
Q: (a) +5 V Vin OV R₁ R₁ R₁ 1.0 k 56Ω 100 Ω RL N AŽE SAŽE ZAŽE 1.0 k 10 ΜΩ O 36. Determine the R,…
A: DIODE: A diode is a semiconductor device that functions as a current one-way switch. It lets current…
Q: FOR THE CIRCUIT IN THE IMAGE Write down the Circuit equations using a) NODE-Voltage METHOD b) MESH…
A: For the given circuit we have to find the nodal and mesh equation and then by using it the voltage…
Q: A steady current of 10 A flows into a previously uncharged capacitor for 1.5 ms when the p.d.…
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Q: Derive filter’s transfer function symbolically and make sure final answer is in canonical form.…
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Q: 4. For the iron-core transformer (k = 1) in Fig. 23.58: Fe So 40 V = 60 H/ N₁ = 20 N = 120 a. Find…
A: In this question we need to find the following The magnitude of the induced voltage Es ( induced…
Q: Consider the network shown in figure a 2002 ↓1 A 1002 R :10Ω b (+25V The Norton's equivalent model…
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Q: V1 392 200μF w=1000 Vs=16z10⁰ 0.5i, 2 V2 4Ω M V3 0.006H
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Q: A dc compound motor is rated at 10 hp, 1200 rpm, 200 V. If the motor draws a full-load current of…
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Q: Q1: Implement the simplest logic circuit for the truth table below Inputs B 0 0 A 0 0 0 0 1 1 1 0 1…
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Q: Vx Ix IR1R₁ R2 VB D₁ Ideal In the circuit above, plot Ix and IR₁ as a function of Vx for two cases:…
A: Given: A circuit, To do: We have to plot IX and IR1 as function of Vx. a) When VB= +1.25 V, b)…
Q: 3) Find I, in the circuit of Fig. 3.
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Q: In the circuit below, how much current is being created by each battery? 1.IV 1.2V 1.2V 4.6 Volts…
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Q: If 1-3.84A 1₂ = 240mA E 1₁ Determine the following E or V₁ = 11 = 13 = R₁ = R₁ R2 = 500 units units…
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Q: series circuit having a resistor R = 25Ω and an inductor ( L ) = 0.15H connected in series to a 120V…
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Q: For the circuit shown below, the input pole is expressed by VDO Select one: 4FM₂ Vout O a Wpin =…
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Q: What is the frequency of a voltage source described as v(t) = 5.6 cos (312 t – 70°) mV? Please…
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Q: #6) ZV FIND i(t),t>0 2 k www 6k i(t) 100 F 0 4 k 6V
A: Given Data: A DC RC transient circuit with Two voltage sources One capacitor and Three resistors…
Q: Please determine the AC voltage gain.
A: The Amplifier circuit is given as We need to calculate the voltage gain of the given circuit.…
Q: Q 1 The power supplied to a three-phase induction motor is 40 kW and the stator losses are 2 kW. If…
A: power supplied to a three-phase induction motor (Pin) = 40 kW Stator losses = 2 kW slip (S) = 4%…
Q: V I 10 ΚΩ 1 mH 1 nF Circuit A R L C H↑ 2 ΚΩ 1 mH L 1 nF Circuit B OW. R C V I 1 ΚΩ 1 mH 1 nF Circuit…
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Q: What is the value of the base current of the circuit in Figure 1? 56.50 μA 19.02 μA 8.28 mA O 2.28…
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Q: Q1. Use DeMorgan's theorems to prove the following Boolean equation. A+ (B.C) + A.B = A.B
A: Boolean expression, A+B.C¯+A.B¯¯¯=A.B¯.
Q: Q2: Find the transfer function C(s)/R₂(s) for the block diagram shown in Fig.(2) below, using block…
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Q: A short horizontal rod length L, is positively charged with uniform linear charge density, λ.…
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Q: (d) Find the Thévienin voltage Vth and impedance Zth for the circuit shown in figure 8.
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Q: IA VA + I + V₁ R₁ onsider the circuit above, where: alculate: A=6 V, R1=5 Q, R2=8 Q, R3=8 Q 1 in…
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Q: Level includes PIDs and PLCs under the automation pyramid (Management, Field, Control, SCADA) 1- A…
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Q: Find the gain and Rf as it is stated in the picture.
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- a. Thévenin's and Norton's theorem are two examples of circuit theorem. With the help of equivalent circuits, distinguish the difference between them.Since R1=9282.13ohm, R2=3403.87ohm and Ri=Infinite in the circuit given in the figure, write the equivalent resistance in Ohms between the terminals A-B.Please answer, thank you! The circuit is composed of resistors with a voltage sources. Solve for the branch currents (I1 to I5) as indicated in the figure using Kirchoffs Laws. Current are assumed. See attached figure.
- SOLVE THE FOLLOWING PROBLEMS COMPLETELY A 20-ohm resistance is connected in parallel with a 60-ohm resistance. Another set, 80-ohmandanunknown resistor are also connected in parallel. The two sets are connected in series. If thesupplyvoltage is 120 V , find the ohmic value of the unknown resistance so the voltage across thefirst setis twice as much that of the second set.4. Consider the following circuit. 3R SR 2R a) How many distinct currents flow in this circuit? The four loops shown are labeled A - D, and the junctions are labeled a - d. b) If we had to solve for these currents, how many independent equations would we need? c) Which loops and/or junctions would you choose, if you had to solve for the currents? (Many answers are possible here.) This diagram shows several different loops and junctions in the circuit. d) Set up a system of equations that would allow you to solve for the currents.a) Find the currents I1, I2, and I3 flowing on the circuit in the figure. b) What current flows in the opposite direction to the assumed direction? c) Using kirchoff's rules, calculate the potential differences between points c and e by following the following ways. path 1 = c-d-e path 2 = c-d-a-e path 3 = c-b-a-e
- The element shown in figure a) is known as Spinner and has the following relations v - i: v1 = R0i2, v2 = —R0i1. Find an equivalent circuit from the terminals v1, i1 of figure b) that contains only two basic elements connected in parallel, figure c).For the circuit shown in figure below, apply Kirchhoff's laws to paths ABEFA and BCDEB to find :- The currents I₁, I₂ and 13. (Answer: I₁ = 0.27A, I₂ = -2.16A, I3 = -1.89A) The voltage drop across R3. (Answer: V₁ = = 1.36V) R3 The power consumed by R₂. (Answer: P2 = 14.29W) The voltage between point B and point E. (Answer: VBL = 8.65V) i) ii) iv) R₁ E₁ A F 252 20V 452 m R35.02 E₂ E 10V R 3 3Ω R510 D 1,500 x 1R: R: In the circuit shown, EMF1 = 25.0 V EMF2 = 10.0 V R1 = 15.0 2 R2 = 25.0 2 R3 = 5.00 2 (a) Redraw the circuit, then identify and label all of the currents in the circuit. (b) Using Kirchhoff's Rules, set up the equations you would need to solve for the currents through each resistor. (c) Using the hint that the potential difference across R3 is 4.13 volts, and the current through R3 travels from left to right (a d), find the currents through R1, R2, and R3. (d) Find the potential differences across each of the resistors. (You already have the potential across R3.) (e) Find the power dissipated by each resistor.
- Consider the series-parallel circuit shown in the figure below with various multimeters connected in the circuit. Assum that XMM1 has been configured in ammeter mode, and XMM2 has been configured in voltmeter mode. XMM1 R1 1kQ XMM2 R2 R3 V1 1kQ 1kQ 12V 3.1: Redraw the circuit replacing XMM1 and XMM2 by their equivalent circuit models 3.2: Assume that XMM2 was incorrectly configured in ammeter mode. Redraw the equivalent circuit from 3.1 and compute the current that would be measured by the ammeter in this scenario. Hil-I did a physics lab and got some values. I want to check them theoretically to see how the results differ. From this diagram, answer the following questions: The laws to be verified included the conservation of current in a node, the addition of potentials for components in series, and the addition of currents for components in parallel. The data : R1: 1094 ohm R2 : 998 ohm R3: 1094 ohmR4: 25 ohm Source 1 : 5 V Source 2 : 1.5 VFind the potential difference between point a and point b for the situation shown below. Here ₁ = 12.0 V, E₂ = 7.77 V and R₁ = 4.33 №, R₂ = 6.44 , and R3 = 2.28 2. Va - Vb = R₂ E2 b R3 www R₁ &₁