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1) Use the circuit to the right. f = 12kHz 10V 20° 50mH 1.2k 47nF a)...
2) Use the circuit to the right. a) (20pts) Find the circuit's total apparent power. a...
2) Use the circuit to the right. a) (20pts) Find the circuit's total apparent power. a P = 500W Q30OVAR f = 60 Hz V = 120V 20° P = 100W Q=1000VAR P=OW Q = 400VAR b b) (10pts) Is the circuit's power factor leading, lagging, or neither? c) (10pts) What type (R, L, or C) of component should be used to connect to points "a" and "b" for power factor correction (Fp = 1)? d) (20pts) What component value...
10kΩ 3) Use the circuit to the right. The source's voltage is V = 50V 230...
10kΩ 3) Use the circuit to the right. The source's voltage is V = 50V 230 a) (10pts) Find the capacitor value to make the circuit resonate at 1.5MHz. 20uH Vs с b) (10pts) Find the circuit current at resonance (magnitude and phase). c) (10pts) Find the circuit's total real (average) power at resonance. d) (10pts) Find the circuit's total reactive power at resonance.
Figure 2.6 depicts this circuit as a voltage source applied to a resistor and inductor in...
Figure 2.6 depicts this circuit as a voltage source applied to a
resistor and inductor in parallel (disregard the capacitor for part
A), which is to be an equivalent to the load. Why is a
resistor and inductor in parallel used for the load versus just
using a resistor?
Find the following (show calculations):
Real power absorbed by the load.
Apparent power of the load.
Reactive power of the load. Don’t use the tangent
function. Instead, find the reactive power using the
apparent...
1? please draw circuit as well 1. A series circuit is composed of a 10 92...
1?
please draw circuit as well
1. A series circuit is composed of a 10 92 resistor, an inductor with a reactance of 10 9 and a capacitor with a reactance of 5 2. The circuit carries an ac current of 10 A. Calculate the following: (a) the active power consumed by circuit; (b) the reactive power absorbed by the circuit (c) the apparent power of the circuit; (d) the power factor of the circuit Circuit Calculation(s)
Each resistor, inductor, and capacitor has 60 ohms, 75 ohms, and 46 ohms respectively. Calculate the...
Each resistor, inductor, and capacitor has 60 ohms, 75 ohms,
and 46 ohms respectively. Calculate the following
a.) Individual current
b.) Individual Voltage drop
c.) Individual Apparent power
d.) Individual Reactive Power
e.) Individual Real Power
f.) Total apparent power
g.) Total reactive power
h.) Total real power
i.) Total power Factor
Problem 4.4 For the AC circuit in Fig. 4.4, I PF leading. oad # 1 is...
Problem 4.4 For the AC circuit in Fig. 4.4, I PF leading. oad # 1 is 1000 VA at 0.7 PF lagging, load # 2 is 700 VA at zero (a) Determine real power, rea (b) D etermine real power, reactive power and power factor of the input source ( etermine the reactance of a capacitor to be connected in parallel with the source to improve the source power factor to unity Load 36 Fig. 4.4
Problem 2. (15 points) In the following circuit, vg = 150 cos 250t, and the load...
Problem 2. (15 points) In the following circuit, vg = 150 cos 250t, and the load is represented by the combination of the resistor and inductor. a) Find the average power, reactive power, and apparent power of the load b) Find power the power factor of the load 80 uF 5022 Ug 100 mH Load
Calculate the voltage in the capacitor and the current in the inductor of the circuit, calculate...
Calculate the voltage in the capacitor and the current in the
inductor of the circuit, calculate the reactive power (Q), active
(P) of the circuit and the total apparent power (S), which power
factor is in the circuit.
0.5 H M 50 cos(10+ 30°) 6 1012 Z +v
Single Phase AC Circuit
a) Calculate the current IL1, IL2, IL3 and IS in phasor form. (11 marks)
b) Calculate the total real power. (5 marks)
c) Calculate the total reactive power. (5 marks)
d) Calculate the apparent power delivered from the power source. (2 marks)
e) Calculate the overall power factor. (3 marks)
f) A capacitor is connected in parallel with the power source so as to correct the power
factor to 0.95 lagging. Calculate the capacitance of the capacitor. (7 marks)
g)...
Offline 12 Phys 212 (5 pts) Name: 1. A multimeter in an AC RLC circuit records...
Offline 12 Phys 212 (5 pts) Name: 1. A multimeter in an AC RLC circuit records an rms current of 0.200 A and an rms voltage of 105 V across the generator. The generator's frequency is 65.0 Hz. The average power delivered to the resistor is 14.0 W. a) Calculate the impedance of the circuit. b) Determine the resistance R. c) If there is no capacitor in the circuit, find the inductance L. Is the voltage leading ahead of or...
2) Use the circuit to the right. a) (20pts) Find the circuit's total apparent power. a P = 500W Q30OVAR f = 60 Hz V = 120V 20° P = 100W Q=1000VAR P=OW Q = 400VAR b b) (10pts) Is the circuit's power factor leading, lagging, or neither? c) (10pts) What type (R, L, or C) of component should be used to connect to points "a" and "b" for power factor correction (Fp = 1)? d) (20pts) What component value...
10kΩ 3) Use the circuit to the right. The source's voltage is V = 50V 230 a) (10pts) Find the capacitor value to make the circuit resonate at 1.5MHz. 20uH Vs с b) (10pts) Find the circuit current at resonance (magnitude and phase). c) (10pts) Find the circuit's total real (average) power at resonance. d) (10pts) Find the circuit's total reactive power at resonance.
Figure 2.6 depicts this circuit as a voltage source applied to a
resistor and inductor in parallel (disregard the capacitor for part
A), which is to be an equivalent to the load. Why is a
resistor and inductor in parallel used for the load versus just
using a resistor?
Find the following (show calculations):
Real power absorbed by the load.
Apparent power of the load.
Reactive power of the load. Don’t use the tangent
function. Instead, find the reactive power using the
apparent...
1?
please draw circuit as well
1. A series circuit is composed of a 10 92 resistor, an inductor with a reactance of 10 9 and a capacitor with a reactance of 5 2. The circuit carries an ac current of 10 A. Calculate the following: (a) the active power consumed by circuit; (b) the reactive power absorbed by the circuit (c) the apparent power of the circuit; (d) the power factor of the circuit Circuit Calculation(s)
Each resistor, inductor, and capacitor has 60 ohms, 75 ohms,
and 46 ohms respectively. Calculate the following
a.) Individual current
b.) Individual Voltage drop
c.) Individual Apparent power
d.) Individual Reactive Power
e.) Individual Real Power
f.) Total apparent power
g.) Total reactive power
h.) Total real power
i.) Total power Factor
Problem 4.4 For the AC circuit in Fig. 4.4, I PF leading. oad # 1 is 1000 VA at 0.7 PF lagging, load # 2 is 700 VA at zero (a) Determine real power, rea (b) D etermine real power, reactive power and power factor of the input source ( etermine the reactance of a capacitor to be connected in parallel with the source to improve the source power factor to unity Load 36 Fig. 4.4
Problem 2. (15 points) In the following circuit, vg = 150 cos 250t, and the load is represented by the combination of the resistor and inductor. a) Find the average power, reactive power, and apparent power of the load b) Find power the power factor of the load 80 uF 5022 Ug 100 mH Load
Calculate the voltage in the capacitor and the current in the
inductor of the circuit, calculate the reactive power (Q), active
(P) of the circuit and the total apparent power (S), which power
factor is in the circuit.
0.5 H M 50 cos(10+ 30°) 6 1012 Z +v
Offline 12 Phys 212 (5 pts) Name: 1. A multimeter in an AC RLC circuit records an rms current of 0.200 A and an rms voltage of 105 V across the generator. The generator's frequency is 65.0 Hz. The average power delivered to the resistor is 14.0 W. a) Calculate the impedance of the circuit. b) Determine the resistance R. c) If there is no capacitor in the circuit, find the inductance L. Is the voltage leading ahead of or...
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