From the Given Circuit Bellow, Find:
a. line voltage
b. line current
c. total complex power, average power, and reactive power at the source
(bottom part of the circuit looks fuzzy it has a clear view at pic3, they are the same circuit)
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From the Given Circuit Bellow, Find:
a. line voltage
b. line current
c. total complex power,...
For the circuit in the given figure, find the average, reactive, and complex power delivered by...
For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V = 58 2259 V. 40 -j1 2220 v 19 v 129 2V The average power is W. The reactive power is VA. The complex power is ( ) VA
Reinforcement Problem # 4 (25 pts.) A) Given An AC electric power circuit is given 1)...
Reinforcement Problem # 4 (25 pts.) A) Given An AC electric power circuit is given 1) The values for the load average power Pt, reactive power Q, and complex power Su 2) The value of the line current I 3) The value of the line average power Pt, reactive power Qr, and complex power St. 4) The value of the power factor of the entire electrical power circuit (seen by source generator). 5) The value of the required line voltage...
Consider the following circuit with an AC voltage source Vin = 1500V260° V connected to a...
Consider the following circuit with an AC voltage source Vin = 1500V260° V connected to a load. The total current drawn from the source 2. 15V2 275 A. Load Calculate . Load Impedance . Average Power(P) . Reactive Power (Q) . Power Factor . Complex Power (S) Apparent Power (ISI
Reinforcement Problem # 4 (25 pts.) A) Given For an AC electric power circuit given: 10KW...
Reinforcement Problem # 4 (25 pts.) A) Given For an AC electric power circuit given: 10KW 25040' Vms 0.81ag B) Determine Step 1: The values for the load average power PL, reactive power QL, and complex power SL Step 2: The value of the line current Step 3: The value of the line average power Pi, reactive power α, and complex power Step 4: The value of the power factor of the entire electrical power circuit (seen by source generator)....
Problem 3: The line-to-neutral voltage at the terminals of the balanced three-phase load in the circuit...
Problem 3: The line-to-neutral voltage at the terminals of the balanced three-phase load in the circuit shown in Fig. 3 is 1200V. At this voltage, the load is absorbing 500kVA at 0.96 pf lag. a) Use Van as the reference and express Ina in the polar form. b) Calculate the complex power associated with the ideal three-phase source. c) Check that the total average power delivered equals the total average power absorbed. d) Check that the total magnetizing reactive power...
3. (30% ) The voltage and current at the terminals of a load circuit are given...
3. (30% ) The voltage and current at the terminals of a load circuit are given by: )=1202 sin(ar) V i ()=812 sin(ar-60)+6/2 sin(Bax -120) A (V) and (A). (a) Find (b) Find the real (average) power P delivered to the load. (c) The distortion factor of the current waveform. (e) Find the displacement power factor DPF for this circuit. (f) Find the power factor of the load. (g) Is the load linear? 3. (30% ) The voltage and current...
1. is the power factor when the AC current through a circuit leads the voltage by...
1. is the power factor when the AC current through a circuit
leads the voltage by sixty degrees? Is the load inductive,
capacitive, or balanced?
2. Find both the real and the complex power created by the
generator in the AC circuit depicted in the image linked below.
0.4 H 32 50 m 5sin(10t) V
8. value: 10.00 points Problem 11.057 - Power delivered to dependent source For the circuit in...
8. value: 10.00 points Problem 11.057 - Power delivered to dependent source For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V : = 47 2 25° V. 412 -j1Ω 212 V 12 j222 2V The average power is 114.72 W. The reactive power is 33.7 VA. The complex power is 114.72 33.7]) VA.
10. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pflagging from...
10. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pflagging from a 120-V rms, 60- Hz line. One load absorbs 1.5 kW at a 0.707 pf lagging. Determine: (a) the pf of the second load, INV 11. Calculate the line currents for the system shown in figure. Calculate also the total power and reactive power consumed by the load. w 12. For the balanced three-phase circuit in Fig.. Calculate the line currents, the phase voltage...
For the circuit inside the box, the input voltage and the current waveforms are i() 4cos...
For the circuit inside the box, the input voltage and the current waveforms are i() 4cos o-50° A i(t) .Find the input impedance Z of the circuit .Find S the complex power delivered to the circuit, .Find P the circuit average power Find Othe circuit reactive power .Find p.f.the circuit power factor v(t)
For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V = 58 2259 V. 40 -j1 2220 v 19 v 129 2V The average power is W. The reactive power is VA. The complex power is ( ) VA
Reinforcement Problem # 4 (25 pts.) A) Given An AC electric power circuit is given 1) The values for the load average power Pt, reactive power Q, and complex power Su 2) The value of the line current I 3) The value of the line average power Pt, reactive power Qr, and complex power St. 4) The value of the power factor of the entire electrical power circuit (seen by source generator). 5) The value of the required line voltage...
Consider the following circuit with an AC voltage source Vin = 1500V260° V connected to a load. The total current drawn from the source 2. 15V2 275 A. Load Calculate . Load Impedance . Average Power(P) . Reactive Power (Q) . Power Factor . Complex Power (S) Apparent Power (ISI
Reinforcement Problem # 4 (25 pts.) A) Given For an AC electric power circuit given: 10KW 25040' Vms 0.81ag B) Determine Step 1: The values for the load average power PL, reactive power QL, and complex power SL Step 2: The value of the line current Step 3: The value of the line average power Pi, reactive power α, and complex power Step 4: The value of the power factor of the entire electrical power circuit (seen by source generator)....
Problem 3: The line-to-neutral voltage at the terminals of the balanced three-phase load in the circuit shown in Fig. 3 is 1200V. At this voltage, the load is absorbing 500kVA at 0.96 pf lag. a) Use Van as the reference and express Ina in the polar form. b) Calculate the complex power associated with the ideal three-phase source. c) Check that the total average power delivered equals the total average power absorbed. d) Check that the total magnetizing reactive power...
3. (30% ) The voltage and current at the terminals of a load circuit are given by: )=1202 sin(ar) V i ()=812 sin(ar-60)+6/2 sin(Bax -120) A (V) and (A). (a) Find (b) Find the real (average) power P delivered to the load. (c) The distortion factor of the current waveform. (e) Find the displacement power factor DPF for this circuit. (f) Find the power factor of the load. (g) Is the load linear? 3. (30% ) The voltage and current...
1. is the power factor when the AC current through a circuit
leads the voltage by sixty degrees? Is the load inductive,
capacitive, or balanced?
2. Find both the real and the complex power created by the
generator in the AC circuit depicted in the image linked below.
0.4 H 32 50 m 5sin(10t) V
8. value: 10.00 points Problem 11.057 - Power delivered to dependent source For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V : = 47 2 25° V. 412 -j1Ω 212 V 12 j222 2V The average power is 114.72 W. The reactive power is 33.7 VA. The complex power is 114.72 33.7]) VA.
10. Two loads connected in parallel draw a total of 2.4 kW at 0.8 pflagging from a 120-V rms, 60- Hz line. One load absorbs 1.5 kW at a 0.707 pf lagging. Determine: (a) the pf of the second load, INV 11. Calculate the line currents for the system shown in figure. Calculate also the total power and reactive power consumed by the load. w 12. For the balanced three-phase circuit in Fig.. Calculate the line currents, the phase voltage...
For the circuit inside the box, the input voltage and the current waveforms are i() 4cos o-50° A i(t) .Find the input impedance Z of the circuit .Find S the complex power delivered to the circuit, .Find P the circuit average power Find Othe circuit reactive power .Find p.f.the circuit power factor v(t)
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