Problem 2 Design the circuit shown, that is, specify values for R and L so that the complex power delivered to the RL circuit is 10 + j6 VA.
Q: Consider the circuit diagram where Vs = 2300 Vrms Z₂ Z₁ Z₂ Find: 1. The apparent power delivered by…
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Q: 1. Determine I, in the circuit shown by mesh analysis jan -jir 1 34c- I, 2. In the circuit shown,…
A: In this question we will find mesh current I1 using mesh analysis.... Note:- as per our guidelines…
Q: For the system shown, (a) find the average/real power Pg and reactive power Q, supplied by the…
A: Given, E = 50 V Load 1= 100 VAr , 200W Load 2= 100 VAr , 200W Load 3= 200 VAr , 0W Load 4= 200 VAr ,…
Q: Q3: Three-phase circuits Consider the Y-A three-phase circuit in Fig. 1 with: Van = 50 cos(100t +…
A: Here, we have given a three-phase star-delta circuit. Here, for delta connection the voltages, Van,…
Q: Given that, RLoad = 1000 ohms LLoad = 0 ohms CLoad = infinity f = 60 hz %3D SOLVE FOR LOAD…
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Q: 2. Using the circuit below: a) Write all possible KCL equation and all possible KVL equation that…
A: (a) Apply KCL at node a I1+I3=-3 Apply KCL at node b -I1+I4-I5=3 Apply KCL at node e I2+I3+I4=-5…
Q: 2. For the network shown below: a. Compute I b. Find I1, I2 , and I3 c. Verify Kirchhoff's current…
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Q: The following impedances are connected in parallel in the electric circuit. Z, = 4 + 9j Z2 = 4 – 1…
A: We are authorized to answer 3 subparts at a time so i am answering only first 3 subparts please…
Q: In the circuit shown, calculate the nodal voltagesV,,V, & V,
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Q: Using the Norton theorem, referring to the series in Figure , determine : A) the Norton circuit B)…
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Q: Determine the current using source transformation. Assigned branch current = i1 (solve using…
A: The circuit diagram is shown below,
Q: element values are selected as R1 = 0.5Ω, R2 = 1Ω, J = 2A, E = 1V, β = 4 α = 1. 10Ω to A-B ends…
A: Connect a 1 V source across A-B and redraw the circuit.
Q: Consider the circuit diagram where Vs = 2300 20 Vrms V, z, Z, Find: 1. The apparent power delivered…
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Q: 4. For the circuit below, E, = 24430° V, 2, = 2 + j2 n, z, = 4 - j3 Q, z, = 6 + j8 2, 2, = 8 - 16 N,…
A: To find complex power in Z5
Q: A power system has 2 buses with bus1 as slack bus and bus 2 as PQ bus and bus voltages as V1=1 20°…
A: Real Power: The actual power that is delivered to the load, such as a transformer, induction motors,…
Q: Consider the circuit diagram where Vs = 2300 Vrms. Z, Z, V Z, Z, Find: 1. The apparent power…
A: Apparent power delivered by the source = Sum of the Apparent power obsorbed by the Loads. apparent…
Q: 30 20V +1
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Q: 4. For the circuit below, E, = 24430° V, 2, = 2 + j2 n, z, = 4 - j3 Q, z, = 6 + j8 2, 2, = 8 - 16 N,…
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Q: 24230 v. z, = 2 + j2 2, z, = 4 - j3 2. j12 N. Calculate 4. For the circuit below, E, %3D z, = 6 + j8…
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Q: QI) For the circuit shown in figure, use Nodal Analysis to obtain currents ir, iz and is. 40 ww 2A…
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Q: Two (2) ideal voltage sources, V1 and V2 are connected together by a line impedance, Z. (i) Draw the…
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Q: Given the circuit below and the associated set of voltages and currents, the real Power developed by…
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Q: Consider the network depicted in the following figure, and determine the equivalent impedance seen…
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Q: Given V1=60V, V2=20V, R1 = 23ohm, R2 = 34ohm, R3 = 35ohm, R4 = 42ohm, Find the value of the i at R =…
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Q: Example: The external characteristics of two d.c. generators 220V and 110kW and connected in…
A: The external characteristics of DC generator is the characteristics drawn between terminal voltage…
Q: Find the real, reactive and apparent powers supplied by the source in the circuit shown below.
A: 3) To find the real, reactive and apparent power supplied by the source
Q: a) Determine the coefficients In the equations below using the mesh current phasors defined in the…
A: According to Ohm's law at constant temperature, the voltage across a conductor is proportional to…
Q: Using Noda analysis method, calculate the current la and 13 for the circuit shown. * أجب على السؤال…
A: Nodal analysis uses Kirchhoff's current law and ohm's law. The detailed solution is attached with.
Q: Consider the circuit diagram where Vs = 2300 20 Vrms z, Z, Find: 1. The apparent power delivered by…
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Q: Search the mesh current method to find the steady state expression for the branch currents i, and i,…
A: Solution- Given, Va = 50sin106tVb = 25cos106t+90°Va = 50sin106t = 50 cos106t-90° = -50j…
Q: For the circuit shown in the following figure, a) Find and draw the Thévenin equivalent circuit at…
A: Given that Electrical network as follows
Q: 11 1. In the circuit shown, solve the following: a)Current at 8 ohms(11), b)Current at 7 ohms(12),…
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Q: 2. For the network shown below: a. Compute I b. Find In , I2 , and Is c. Verify Kirchhoff's current…
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Q: 60 (2 is connected to a voltage source given by v, (t) = A 0.252 long transmission line with Z,…
A: The equivalent impedance between the load and the impedance, Z0 is determined as:…
Q: I, 20 j1 0 ーj2 2 多25 エ。 12/0° v (+ Ix 21, +.
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Q: Problem 2. In the circuit below, Find ZL for maximum power transfer to the load. Also, find the…
A: To find ZL for maximum power transfer to the load, open the circuit the load impedance and calculate…
Q: Determine the network elements and values of the empedance Zx in the given circuit below if Vx = 33…
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Q: + j4.252 For the circuit shown, the load complex power is given as : I = 4255" A %3D V, S= 4482-60°…
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Q: Using Noda analysis method , calculate the current la and 13 for the circuit shown. * أجب على السؤال…
A: Nodal analysis use Kirchhoff's current law and ohm's law to write the equations. The detailed…
Q: Qz :- For te circuit Shown below, Finel the Current I, using mesh analy Sis:- エ RSう。n メL 5レL3° (の5
A: In the circuit, two mesh loops are consist. Find the current I1 using the mesh analysis.
Q: 50 MW- t-0. Q.20: For the circuit shown, find the transient mesh currents i, & iz as a function of…
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Q: Two circuits, the impedances of which are given by Z, = 15 + jl2 ohms and Z. - 8 - j5 ohms are…
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Q: The zero-state scaled network shown in Figure 131 is driven by the sinusoidal voltage source Eg(t)…
A: The current in the loop can be calculated by using mesh analysis after finding the impedance of the…
Q: A voltage source v(t) = Vm sin (wt + a) is short circuited at the end of a transmission line, w =…
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Q: Using Noda analysis method, calculate the current la and 13 for the circuit shown. * أجب على السؤال…
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Q: Given the circuit below and the associated set of voltages and currents, the real Power delivered by…
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Q: For the circuit shown below, Given that V 100Z0°Vm and I = 30245°Ams then the values of P, and Q3…
A: Given circuit shown below Vs=100∠0° VrmsIs=30∠45° Arms
Q: = 2 + j2 N, z, j3 2, = 4 E. = 24230° v, For the circuit below, = 10 j10 N, and Z, j12 N. Calculate 6…
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Q: Fin d I,,12 by usiny mesh analysis R3-20j0 Vzs 20 V, = lov %3D
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- Convert the following instantaneous currents to phasors, using cos(t) as the reference. Give your answers in both rectangular and polar form. (a) i(t)=5002cos(t30) (b) i(t)=4sin(t+30) (c) i(t)=5cos(t15)+42sin(t+30)[Q3] Analyze the following electrical circuit with mesh analysis by finding the currents using Gauss-elimination method 10 Q 15 Q 25 0 20Q 35Q - 1000 V 1000V 2000 V 2000 V 30 2 40 QConsider the following circuit used to provide power for an inductive RL load. The input voltage is Vs-100V and the load has a 50 impedance value. The thyristor is working at a frequency fs = 2 kHz. The discharge current is to be limited to 40A and the required dv/dt is 40V/us. If the value of Cs is equal to 0.14uF, then the snubber losses are equal to: T1 Vs Select one: O a. 3.4W O b. 1.4W 5.4W Od. 7.4W
- Determine the nodal voltage V1 if l=4L25° A, and R=4 2, for the following figure: -j2 Q 20/-90° V j12 Ref. Oa. 26.56 L 72.507 V Ob. 22.56 L 68.507 V Cc. 28.56 L 74.507 V Od. 24.56 L 70.507 V When the voltage source is compared with the current source which of the fol owing is true Ca. The current source angle leads the voitage source ang e by 135 Ob. The current source angle ags the vo tage source ang e by115 Oc. The current source angle ags the voltage sourde angle by 135 Co. The current source ang e leads the vo tage source angle by115 wwFor the circuit of the following figure, if R=26 0, Zc=-J26 0, and ZL=J30 0, and if the value of the nodal voltage V is 1.743-27 47° V, find the value of the reactive power supplied by the 3L-41 V voltage source. Ze R 15/24 V E ZL 341 V a 0.0377 VAR b.00736 VAR C0.0471 VAR d. 0.0589 VAR leDetermine the nodal voltage V1 if l=4L25° A, and R=4 2, for the following figure: -j2 2 20/-90° V R Ref. Oa. 26.56 L 72.507 V Ob. 22.56 L 68.507 V Oc. 28.56 L 74.507 V Od. 24,56 L 70.507 V When the voltage source is compared with the current source, which of the following is true: Oa. The current source angle leads the voltage source angle by 135 Ob. The current source angle lags the voltage source angle by 115 Oc. The current source angle lags the voltage source angle by 135 Od. The current source angle leads the voltage source angle by 115 pe here to search DELL ww
- 5) Find the reactance the inductance and impedance of the circuit. Calculate the current of this circuit and the sketch waveform of current and voltage. V1 10 V 60 Hz R1 m 100kQ 12 Vrms 1000 Hz 0° 6) Find the reactance the inductance and impedance of the circuit. Calculate the currents of this circuit R www 502 L L1 106mH eee 10 mHA voltage and current applied to a single phase load is v= 195 sin (300t+35°) and i= 175 sin (250t- 40°). Find the single and three phase active and reactive power of the circuit if the voltage and current are in cos waveform. Active Power Reactive Power Three Phase Active power Three phase Reactive Power3&page%3D1 American Uni. Girne American Uni.. O portal.gaueng.org My Profile - Zoom Dashboard My Courses This course Find the Norton equivalent of the circuit 60 30 40V ,50 202 A BI E E E E ere to search
- The sinusoidal voltage source in the circuit in (Figure 1) is developing a voltage equal to 50sin400tV. Suppose that R = 480 Ω.Find the Thévenin voltage with respect to the terminals a,b. In rectangle form. Find the Thévenin impedance with respect to the terminals a,b. in rectangle formIf an electrical circuit draws 100W + J100VAR from a sinusoidal source, then what would the circuit be? Explain why. a) a pure resistor circuit b) a series or parallel R-L circuit c) a series or parallel R-C circuit d) a series L-C circuitIn the figure: R1 = 1439.170, R2 = R1 and R3 =2R2, then determine the value of the voltage source E. a 8 mA 10 mA 2 mA RT R1 R2 R3 O 25.33 11.51 O 17.27 15.43 13.82 +