Homework Answers
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1. A series circuit is composed of a 10 92...
1. In an AC series circuit, the current in a pure resistor differs in phase with...
1. In an AC series circuit, the current in a pure resistor differs in phase with the applied voltage by what angle? Options: a=zero, b=45°, c=90° d=180 2. In the inductor of a 60-Hz AC series circuit, the peak voltage precedes the peak current in each cycle by what time interval? Option: a)2.1 ´ 10-3 s b)4.2 ´ 10-3 s c) 8.3 ´ 10-3 s d) 1.7 ´ 10-3 s 3) What is the impedance of an AC series circuit...
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
Please help me to answer this question. TQ A coil having a resistance of 20Ω in...
Please help me to answer this question. TQ A coil having a resistance of 20Ω in series with an inductance of 0.0382H, is connected in parallel with a circuit consisting of a 150μF capacitor in series with a 10 Ω resistor. The arrangement is connected to a 240V, 50 Hz supply. Determine: The current in each branch. The total supply current. Draw the phasor diagram Calculate the apparent power, real power and reactive power of the circuit. Calculate the power...
A circuit consists of a resistor in series with an inductor and an ac generator that...
A circuit consists of a resistor in series with an inductor and an ac generator that supplies a voltage of 150 V. The inductive reactance is 53 ohms, and the current in the circuit is 1.45 A. Find the average power delivered to the circuit.
Question # 1 - In a series R-L circuit, a voltage of 10 V at 50...
Question # 1 - In a series R-L circuit, a voltage of 10 V at 50 Hz frequency produces a current of 750 mA. In the same circuit with same magnitude of applied voltage with a frequency of 75 Hz produces a current of 500 mA. Find out the values of R and L in the circuit. Question # 2 - Derive the equations of active, reactive and apparent powers in a series R-L circuit with sinusoidal AC supply. Question...
1) Use the circuit to the right. f = 12kHz 10V 20° 50mH 1.2k 47nF a)...
1) Use the circuit to the right. f = 12kHz 10V 20° 50mH 1.2k 47nF a) (10pts) Find the average (real) power of the resistor. b) (10pts) Find the average (real) power of the capacitor. c) (10pts) Find the average (real) power of the inductor. (10pts) Find the total average (real) power of the circuit. f) (10pts) Find the reactive power of the capacitor. g) (10pts) Find the reactive power of the inductor. h) (10pts) Find the total reactive power...
A circuit consists of a resistor, capacitor, and inductor connected in series to an AC source....
A circuit consists of a resistor, capacitor, and inductor connected in series to an AC source. As the source frequency increases, the current in the circuit decreases. Which statement about the circuit is NOT correct as the source frequency increases? a) The inductive reactance increases. b) The circuit is said to become more capacitive than inductive. c) The total power from the source decreases. d) The impedance of the circuit increases. e) The phase angle for the circuit becomes more...
Please answer 14 Thanks circuit has a value of 8.0 H, what is the capacitance of...
Please answer 14
Thanks
circuit has a value of 8.0 H, what is the capacitance of the circuit? A series AC circuit is shown. The inductor has a reactance of 50 Ohm and an inductance of 250 mH. A 40 Ohm resistor and a capacitor whose reactance is 150 ohms are also in the circuit. The rms current in the circuit is 2.0 A. Find the rms voltage of the source.
A series AC circuit contains a resistor, an inductor of 220 mH, a capacitor of 4.20...
A series AC circuit contains a resistor, an inductor of 220 mH, a capacitor of 4.20 ur, and a source with ΔⅤmax-240 V operating at 50.0 Hz. The maximum current in the circuit is 170 mA. (a) Calculate the inductive reactance 69.11 (b) Calculate the capacitive reactance 757.88 (c) Calculate the impedance 141 (d) Calculate the resistance in the circuit. 6.887 The impedance is a function of the resistance and the impedances of the inductor and capacitor. kΩ (e) Calculate...
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...
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
1) Use the circuit to the right. f = 12kHz 10V 20° 50mH 1.2k 47nF a) (10pts) Find the average (real) power of the resistor. b) (10pts) Find the average (real) power of the capacitor. c) (10pts) Find the average (real) power of the inductor. (10pts) Find the total average (real) power of the circuit. f) (10pts) Find the reactive power of the capacitor. g) (10pts) Find the reactive power of the inductor. h) (10pts) Find the total reactive power...
Please answer 14
Thanks
circuit has a value of 8.0 H, what is the capacitance of the circuit? A series AC circuit is shown. The inductor has a reactance of 50 Ohm and an inductance of 250 mH. A 40 Ohm resistor and a capacitor whose reactance is 150 ohms are also in the circuit. The rms current in the circuit is 2.0 A. Find the rms voltage of the source.
A series AC circuit contains a resistor, an inductor of 220 mH, a capacitor of 4.20 ur, and a source with ΔⅤmax-240 V operating at 50.0 Hz. The maximum current in the circuit is 170 mA. (a) Calculate the inductive reactance 69.11 (b) Calculate the capacitive reactance 757.88 (c) Calculate the impedance 141 (d) Calculate the resistance in the circuit. 6.887 The impedance is a function of the resistance and the impedances of the inductor and capacitor. kΩ (e) Calculate...
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...
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