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3) Determine the current T, V', 11 and I's in the following circuit and use those...
Please show all work and concepts 5.2 (15 pts) In the following circuit, voltage source V...
Please show all work and concepts
5.2 (15 pts) In the following circuit, voltage source V 10020° V, 60 Hz supplies power to three load circuits with impedances Z1, Z2, and Z3. The following information was deduced from measurements performed on the three load circuits Load Z1: 45 W at pf 0.95 lagging Load Z2: 70 VA at pf 0.75 leading Load Z3: 100 VA at pf = 0.6 lagging (a) Are Z1, Z2, and Z3 inductive or capacitive? (b)...
Fill in the table and show calculations for it. A.1. Phasor Analysis and Complex Power 100...
Fill in the table and show calculations for it.
A.1. Phasor Analysis and Complex Power 100 R3 220 R2 1k L1 Implement the above circuit. (The above diagram was made in PSpice but you should be able to simulate it in LTSpice). Set the source amplitude to 5V amplitude with a frequency of 795 Hz a. Use phasor analysis to calculate the current through Rs b. Using the first power expression, determine the complex power produced by the source. Recall,...
solve the circuit following the steps For the sample AC circuit 2: vst) 31H Zeq Vs(t)...
solve the circuit following the steps
For the sample AC circuit 2: vst) 31H Zeq Vs(t) = 10 cos (10t + 90°) V (Variations: Changes in resistor and source values and directions).) B. Determine Step 1: The voltage phasor VSF Step 2: The equivalent impedance Zeq Step 3: The phasor current IF Step 4: The steady state current l(t)ss Step 5: The complex power (S = VsFlF* = P + jQ). Step 6: The average (P) and reactive power (Q)....
Question 11 (1 point) Z3 Z4 Z5 In the circuit above, Vs* 100 L 30° V,...
Question 11 (1 point) Z3 Z4 Z5 In the circuit above, Vs* 100 L 30° V, Z1-100 Ω, Z2-/220 Ω, 23 -j 150 Ω, 24 470 Ω and Z5 = (680 +j330) Ω. Use any method of circuit analysis to determine the voltage across Z3 in polar form. Vz3 11.84 Z 18.18° V z3 100 30° v Vz3-19.39 Z-55.21° v Vz3-89.48 44.07
A single-phase, 230 V, 50 Hz, 8 pole, Induction Motor has the following equivalent circuit parameters:...
A single-phase, 230 V, 50 Hz, 8 pole, Induction Motor has the following equivalent circuit parameters: Z1 = 1.7 + j 2.7 Ω ZF = 12 + j 20 Ω ZB = 1.2 + j 2.4 Ω If the core loss is 84 W, while the friction and windage loss is 100 W at 5% slip. Determine: The line current drawn by the machine. (4) The power factor. (1) The input power. (2) The air-gap power. (3) The converted power. ...
The voltage and current at the input of a circuit are given by the expressions v(t)...
The voltage and current at the input of a circuit are given by the expressions v(t) = 120 cos (ω t + 30o) V i(t) = 40 cos (ω t + 45o) A Determine the average power absorbed by the circuit.
Palred Quiz) 3 For ideal transformer as shown in figure P.3, determine: a. The currents I1,...
Palred Quiz) 3 For ideal transformer as shown in figure P.3, determine: a. The currents I1, I2 and I3! b. The primary and secondary voltage Vu V, Vg and Va C. The complex power supplied by the source! d. The effective power dissipated by the load impedance, Zioad 812-20 Ω 1:3 18 Ω Zload 40200 v ( 45 Figure P.3 Ideal Transformer Circuit
If Vs(t) = 10 cos (10t - 90o) V, determine: brief description and legible formulas and...
If Vs(t) = 10 cos (10t - 90o) V,
determine: brief description and legible formulas and
variables
Step 1: The voltage phasor VSF
Step 2: The equivalent impedance Zeq
Step 3: The phasor current IF
Step 4: The steady state current I(t)ss
Step 5: The complex power (S = ½VSFIF* = P + jQ).
Step 6: The average (P) and reactive power (Q).
Step 7: The power factor and sketch of the power triangle.
Vs(t) (+) 0.1H Zeq If Vs(t)...
For the circuit below, determine, a. The equivalent resistance. b. The total current in the circuit. c. The total power. d. The current and voltage for R5 and R7 . Take, V = 48 V, R1 = 25 Ω, R5 = 45 Ω...
For the circuit below, determine,
a. The equivalent resistance.
b. The total current in the circuit.
c. The total power.
d. The current and voltage for R5 and R7
.
Take, V = 48 V, R1 = 25 Ω, R5 = 45 Ω, R6 = 40 Ω, and R7 = 38
Ω.
2. 10] For the circuit below, determine, a. The equivalent resistance b. The total current in the circuit. c. The total power d. The current and voltage for...
Determine the voltage, v, for the circuit in Fig. 2 by solving for v1, 2 and...
Determine the voltage, v, for the circuit in Fig. 2 by solving for v1, 2 and va using Kirchoff's current law (nodal analysis). The arrows show the directions of current in each element. 16 Ω 100 V V4-0 Fig.2 Circuit for Team # 2
Please show all work and concepts
5.2 (15 pts) In the following circuit, voltage source V 10020° V, 60 Hz supplies power to three load circuits with impedances Z1, Z2, and Z3. The following information was deduced from measurements performed on the three load circuits Load Z1: 45 W at pf 0.95 lagging Load Z2: 70 VA at pf 0.75 leading Load Z3: 100 VA at pf = 0.6 lagging (a) Are Z1, Z2, and Z3 inductive or capacitive? (b)...
Fill in the table and show calculations for it.
A.1. Phasor Analysis and Complex Power 100 R3 220 R2 1k L1 Implement the above circuit. (The above diagram was made in PSpice but you should be able to simulate it in LTSpice). Set the source amplitude to 5V amplitude with a frequency of 795 Hz a. Use phasor analysis to calculate the current through Rs b. Using the first power expression, determine the complex power produced by the source. Recall,...
solve the circuit following the steps
For the sample AC circuit 2: vst) 31H Zeq Vs(t) = 10 cos (10t + 90°) V (Variations: Changes in resistor and source values and directions).) B. Determine Step 1: The voltage phasor VSF Step 2: The equivalent impedance Zeq Step 3: The phasor current IF Step 4: The steady state current l(t)ss Step 5: The complex power (S = VsFlF* = P + jQ). Step 6: The average (P) and reactive power (Q)....
Question 11 (1 point) Z3 Z4 Z5 In the circuit above, Vs* 100 L 30° V, Z1-100 Ω, Z2-/220 Ω, 23 -j 150 Ω, 24 470 Ω and Z5 = (680 +j330) Ω. Use any method of circuit analysis to determine the voltage across Z3 in polar form. Vz3 11.84 Z 18.18° V z3 100 30° v Vz3-19.39 Z-55.21° v Vz3-89.48 44.07
Palred Quiz) 3 For ideal transformer as shown in figure P.3, determine: a. The currents I1, I2 and I3! b. The primary and secondary voltage Vu V, Vg and Va C. The complex power supplied by the source! d. The effective power dissipated by the load impedance, Zioad 812-20 Ω 1:3 18 Ω Zload 40200 v ( 45 Figure P.3 Ideal Transformer Circuit
If Vs(t) = 10 cos (10t - 90o) V,
determine: brief description and legible formulas and
variables
Step 1: The voltage phasor VSF
Step 2: The equivalent impedance Zeq
Step 3: The phasor current IF
Step 4: The steady state current I(t)ss
Step 5: The complex power (S = ½VSFIF* = P + jQ).
Step 6: The average (P) and reactive power (Q).
Step 7: The power factor and sketch of the power triangle.
Vs(t) (+) 0.1H Zeq If Vs(t)...
For the circuit below, determine,
a. The equivalent resistance.
b. The total current in the circuit.
c. The total power.
d. The current and voltage for R5 and R7
.
Take, V = 48 V, R1 = 25 Ω, R5 = 45 Ω, R6 = 40 Ω, and R7 = 38
Ω.
2. 10] For the circuit below, determine, a. The equivalent resistance b. The total current in the circuit. c. The total power d. The current and voltage for...
Determine the voltage, v, for the circuit in Fig. 2 by solving for v1, 2 and va using Kirchoff's current law (nodal analysis). The arrows show the directions of current in each element. 16 Ω 100 V V4-0 Fig.2 Circuit for Team # 2
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