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Deck 21: AC Circuits

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Question
What is the average power if the current is Io sin( ω\omega t) and the voltage is Vo sin( ω\omega t) ?
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Question
The average power dissipated in an RLC circuit is I2 rms R where R is the Reactance.
Question
Impedance is the total, or effective, opposition to current that takes into account both resistances and reactances.
Question
The resonance frequency of an RLC circuit is the frequency at which the circuit dissipates minimum power.
Question
The polarity of the voltage in a circuit operating at 60 Hz reverses

A) 90 times per second.
B) 10 π\pi times per second.
C) 30 times per second.
D) 60 times per second.
E) 120 times per second.
Question
The rms value of a "square" wave is ________ the rms value of a "sine" wave of similar amplitude and frequency. (see Figure 21-1)
<strong>The rms value of a square wave is ________ the rms value of a sine wave of similar amplitude and frequency. (see Figure 21-1) </strong> A) equal to B) less than C) more than <div style=padding-top: 35px>

A) equal to
B) less than
C) more than
Question
A capacitor is connected to an AC power supply. In this circuit, the current

A) leads the voltage by 45°.
B) lags the voltage by 90°.
C) lags the voltage by 45°.
D) is in phase with the voltage.
E) leads the voltage by 90°.
Question
If the frequency of the AC voltage across a capacitor is doubled, the capacitive reactance of that capacitor

A) becomes zero.
B) increases to twice its original value.
C) increases to 4 times its original value.
D) decreases to one-fourth its original value.
E) decreases to one-half its original value.
Question
As the frequency of the AC voltage across a capacitor approaches zero, the capacitive reactance of that capacitor

A) approaches zero.
B) approaches unity.
C) approaches infinity.
D) becomes negative.
Question
Inductive Reactance is actually a consequence of

A) Coulomb's Law.
B) Newton's Law.
C) Faraday's Law.
D) Gauss's Law.
Question
If I have a circuit which has unwanted current variations (with time) (want a more steady current), which one of these should be added in series?

A) inductor
B) resistance
C) battery
D) capacitor
Question
If the frequency of the AC voltage across an inductor is doubled, the inductive reactance of that inductor

A) increases to 4 times its original value.
B) decreases to one-half its original value.
C) decreases to one-fourth its original value.
D) increases to twice its original value.
Question
The average power delivered by an AC generator in an RLC circuit is ________ the product IV where I & V are respectively the current and voltage amplitudes.

A) less than
B) equal to
C) more than
Question
Which of the following doesn't have ohm units?

A) <strong>Which of the following doesn't have ohm units?</strong> A) L B) C C) (X<sub>c</sub>X<sub>c</sub>)/R D) (X<sub>L</sub> - X<sub>C</sub>) E) R <div style=padding-top: 35px> L
B) 11eea40d_cc1e_6c53_97f4_f597a21d7c25_TB9720_11 C
C) (XcXc)/R
D) (XL - XC)
E) R
Question
In a series RLC circuit the total impedance

A) never exceeds R.
B) equals R + XL + XC.
C) always exceeds R.
D) never is less than R.
Question
Consider an RLC circuit. The impedance of the circuit increases if R increases.

A) always true
B) true only if XL is less than or equal to XC
C) never true
D) true only if XL is greater than or equal to XC
Question
Consider an RLC circuit. The impedance of the circuit increases if XL increases.

A) true only if XL is less than or equal to XC
B) always true
C) true only if XL is greater than or equal to XC
D) never true
Question
The power factor of an RLC circuit is defined as cos <strong>The power factor of an RLC circuit is defined as cos = R/Z, but the phase angle can also be calculated from</strong> A) sin = Z/( X<sub>L</sub> - X<sub>C</sub>). B) sin = (X<sub>L</sub> - X<sub>C</sub>)/Z. C) sin = RZ/( X<sub>L</sub> - X<sub>C</sub>). D) sin = (X<sub>L</sub> - X<sub>C</sub>)/RZ. <div style=padding-top: 35px> = R/Z, but the phase angle can also be calculated from

A) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11= Z/( XL - XC).
B) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11 = (XL - XC)/Z.
C) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11 = RZ/( XL - XC).
D) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11 = (XL - XC)/RZ.
Question
Compare the voltage waves from two different AC circuits, as shown in Figure 21-2.
<strong>Compare the voltage waves from two different AC circuits, as shown in Figure 21-2. The absolute value of the phase difference is</strong> A) 45°. B) -90°. C) 90°. D) zero. E) 180°. <div style=padding-top: 35px>
The absolute value of the phase difference is

A) 45°.
B) -90°.
C) 90°.
D) zero.
E) 180°.
Question
Resonance in a series RLC circuit occurs when

A) XL is greater than XC.
B) XL equals XC.
C) (XL - XC )2 is equal to R2.
D) XC is greater than XL.
Question
If the inductance and the capacitance both double in an LRC series circuit, the resonant frequency of that circuit will

A) decrease to one-half its original value.
B) increase to four times its original value.
C) increase to twice its original value.
D) decrease to one-fourth its original value.
E) decrease to one-eighth its original value.
Question
American power plants usually supply 120. volts AC:
(a) at what frequency?
(b) at what maximum voltage?
Question
For an rms current of 5.0 amperes determine the maximum and peak-to-peak values.
Question
The output voltage of a power supply is V = Vo sin (120. t) volts. At t = 0.010 s the output voltage is 4.2 V. What is the rms voltage of the generator?
Question
A 100. Watt light bulb is powered by 120. v AC, 60. Hz household connection. Determine the rms current and the peak current.
Question
The peak output of a generator is 20. A and 240. V. What average power is provided by the generator?
Question
In an AC circuit the voltage varies as V = 96. sin (277 t) volts.
(a) What is the rms voltage?
(b) What is the frequency?
Question
The potential applied to a 20. Ω\Omega resistor is 60. cos (33. t) volts. What is the:
(a) instantaneous current?
(b) rms current?
Question
The current through a 50. Ω\Omega resistor is I = 0.80 sin (240. t) amperes.
(a) What is the peak current?
(b) What is the rms current?
Question
The current through a 50. Ω\Omega resistor is I = 0.80 sin (240. t) amperes.
(a) At what frequency does the current vary?
(b) How much power is dissipated in the resistor?
Question
A 150. W lamp is placed into a 120. V AC outlet.
(a) What are the peak and rms currents?
(b) What is the resistance of the lamp?
Question
The potential applied to a 20. Ω\Omega resistor is 60. cos (33. t) volts. What is the:
(a) frequency?
(b) average power?
Question
An AC voltage source has an amplitude of 96. V and frequency 400. Hz. The voltage was zero at t = 0 and was increasing.
(a) What is the effective rms voltage?
(b) What is the instantaneous voltage at 1.00 ms?
(c) When will the voltage be 40. V?
Question
A series RC circuit has resistance of 150 Ω\Omega and capacitance of 40. μ\mu F. It is driven by a 120. V, 60. Hz source.
(a) How much power is dissipated in the resistor?
(b) How much power is dissipated in the capacitor?
Question
What is the reactance of a 1.0 mH inductor at 60 Hz?
Question
The current in a coil increases from 2.0 A to 12. A in 50. ms. Calculate the voltage induced in the coil if its self-inductance is 0.120 H.
Question
At what frequency will the Inductive Reactance of 44. mH be equal to the Capacitive Reactance of a 27. pF capacitor?
Question
For what frequency range is the reactance of a 3.3 μ\mu F larger than a 3.3 Ω\Omega resistance where the capacitor, resistance, and a 3.3 mH inductor are in series?
Question
A 50. Ω\Omega resistor is placed in series with a 40. mH inductor. At what frequency will the current in such a circuit lag the applied voltage by exactly 45°?
Question
What current flows in a 60. mH inductor when 12. V AC at a frequency of 20. kHz is applied to it?
Question
A series RL circuit is driven by a 120. V, 60. Hz source. The values of the resistance and inductance are R = 20.0 Ω\Omega and L = 160. mH. Determine:
(a) the current.
(b) the phase angle between the current and the applied voltage.
Question
Given 30. μ\mu H and a 60. Ω\Omega resistor, what range of capacity allows tuning this series circuit to the FM band (88-108 MHz)?
Question
What capacitance will have the same reactance as a 100. mH inductance in a 120. V, 60. Hz circuit?
Question
A 120. mH inductor is in series with a 20. Ω\Omega resistor and a variable capacitor ( 0.110 μ\mu F to 0.400 μ\mu F)
(a) What is the range of resonant frequencies possible?
(b) Connected to a 24. volt rms source, what current flows at resonance?
Question
A resistor is connected to normal 60. Hz, 120. volt AC. How many times a second does the instantaneous dissipated POWER reach a maximum?

A) 30
B) 0
C) 240
D) 120
E) 60
Question
In an RLC circuit, the resistance is 10. ohms, the capacitive reactance is 30. ohms, and the inductive reactance is 50. ohms. What is the circuit impedance?

A) 63. <strong>In an RLC circuit, the resistance is 10. ohms, the capacitive reactance is 30. ohms, and the inductive reactance is 50. ohms. What is the circuit impedance?</strong> A) 63. B) 22. C) 10. D) 81. E) 90. <div style=padding-top: 35px>
B) 22. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
C) 10. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
D) 81. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
E) 90. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
Question
Consider a 4500. ohm resistor in series with a 133. mH inductor. What capacitance should be added in series so that the impedance is a minimum at 500. KHz?

A) 0.627 pF
B) 7.26 μ\mu F
C) 0.762 pF
D) 2.67 μ\mu F
E) 0.267 pF
Question
A series RLC circuit has R = 20. μ\mu , L = 200. mH, C = 10. μ\mu F. At what frequency should the circuit be driven in order to have maximum power transferred from the driving source?

A) 0.28 kHz
B) 0.96 kHz
C) 0.17 kHz
D) 0.11 kHz
E) 0.45 kHz
Question
A resistance of 55. <strong>A resistance of 55. , a capacitor of capacitive reactance 30. , and an inductor of inductive reactance 30. are connected in series to a 110. V, 60. Hz power source. What current flows in this circuit?</strong> A) more than 4. A B) 2. A C) more than 2. A but less than 4. A D) 4. A E) less than 2. A <div style=padding-top: 35px> , a capacitor of capacitive reactance 30. 11eea40e_f9c3_5706_97f4_d114cf755d2c_TB9720_11, and an inductor of inductive reactance 30.11eea40e_f9c3_5706_97f4_d114cf755d2c_TB9720_11 are connected in series to a 110. V, 60. Hz power source. What current flows in this circuit?

A) more than 4. A
B) 2. A
C) more than 2. A but less than 4. A
D) 4. A
E) less than 2. A
Question
What size capacitor must be placed in series with a 30. <strong>What size capacitor must be placed in series with a 30. resistor and a 40. mH coil if the resonant frequency of the circuit is to be 1000. Hz?</strong> A) 6.0 \mu F B) 3.3 \mu F C) 0.63 \mu F D) 2.0 \mu F E) 4.5 \mu F <div style=padding-top: 35px> resistor and a 40. mH coil if the resonant frequency of the circuit is to be 1000. Hz?

A) 6.0 μ\mu F
B) 3.3 μ\mu F
C) 0.63 μ\mu F
D) 2.0 μ\mu F
E) 4.5 μ\mu F
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Deck 21: AC Circuits
1
What is the average power if the current is Io sin( ω\omega t) and the voltage is Vo sin( ω\omega t) ?
(Io Vo) /2
2
The average power dissipated in an RLC circuit is I2 rms R where R is the Reactance.
False
3
Impedance is the total, or effective, opposition to current that takes into account both resistances and reactances.
True
4
The resonance frequency of an RLC circuit is the frequency at which the circuit dissipates minimum power.
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k this deck
5
The polarity of the voltage in a circuit operating at 60 Hz reverses

A) 90 times per second.
B) 10 π\pi times per second.
C) 30 times per second.
D) 60 times per second.
E) 120 times per second.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
6
The rms value of a "square" wave is ________ the rms value of a "sine" wave of similar amplitude and frequency. (see Figure 21-1)
<strong>The rms value of a square wave is ________ the rms value of a sine wave of similar amplitude and frequency. (see Figure 21-1) </strong> A) equal to B) less than C) more than

A) equal to
B) less than
C) more than
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k this deck
7
A capacitor is connected to an AC power supply. In this circuit, the current

A) leads the voltage by 45°.
B) lags the voltage by 90°.
C) lags the voltage by 45°.
D) is in phase with the voltage.
E) leads the voltage by 90°.
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Unlock for access to all 50 flashcards in this deck.
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k this deck
8
If the frequency of the AC voltage across a capacitor is doubled, the capacitive reactance of that capacitor

A) becomes zero.
B) increases to twice its original value.
C) increases to 4 times its original value.
D) decreases to one-fourth its original value.
E) decreases to one-half its original value.
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
9
As the frequency of the AC voltage across a capacitor approaches zero, the capacitive reactance of that capacitor

A) approaches zero.
B) approaches unity.
C) approaches infinity.
D) becomes negative.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
10
Inductive Reactance is actually a consequence of

A) Coulomb's Law.
B) Newton's Law.
C) Faraday's Law.
D) Gauss's Law.
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
11
If I have a circuit which has unwanted current variations (with time) (want a more steady current), which one of these should be added in series?

A) inductor
B) resistance
C) battery
D) capacitor
Unlock Deck
Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
12
If the frequency of the AC voltage across an inductor is doubled, the inductive reactance of that inductor

A) increases to 4 times its original value.
B) decreases to one-half its original value.
C) decreases to one-fourth its original value.
D) increases to twice its original value.
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k this deck
13
The average power delivered by an AC generator in an RLC circuit is ________ the product IV where I & V are respectively the current and voltage amplitudes.

A) less than
B) equal to
C) more than
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Unlock for access to all 50 flashcards in this deck.
Unlock Deck
k this deck
14
Which of the following doesn't have ohm units?

A) <strong>Which of the following doesn't have ohm units?</strong> A) L B) C C) (X<sub>c</sub>X<sub>c</sub>)/R D) (X<sub>L</sub> - X<sub>C</sub>) E) R L
B) 11eea40d_cc1e_6c53_97f4_f597a21d7c25_TB9720_11 C
C) (XcXc)/R
D) (XL - XC)
E) R
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15
In a series RLC circuit the total impedance

A) never exceeds R.
B) equals R + XL + XC.
C) always exceeds R.
D) never is less than R.
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16
Consider an RLC circuit. The impedance of the circuit increases if R increases.

A) always true
B) true only if XL is less than or equal to XC
C) never true
D) true only if XL is greater than or equal to XC
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17
Consider an RLC circuit. The impedance of the circuit increases if XL increases.

A) true only if XL is less than or equal to XC
B) always true
C) true only if XL is greater than or equal to XC
D) never true
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18
The power factor of an RLC circuit is defined as cos <strong>The power factor of an RLC circuit is defined as cos = R/Z, but the phase angle can also be calculated from</strong> A) sin = Z/( X<sub>L</sub> - X<sub>C</sub>). B) sin = (X<sub>L</sub> - X<sub>C</sub>)/Z. C) sin = RZ/( X<sub>L</sub> - X<sub>C</sub>). D) sin = (X<sub>L</sub> - X<sub>C</sub>)/RZ. = R/Z, but the phase angle can also be calculated from

A) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11= Z/( XL - XC).
B) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11 = (XL - XC)/Z.
C) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11 = RZ/( XL - XC).
D) sin 11eea40e_0adb_84f4_97f4_991b903cac4d_TB9720_11 = (XL - XC)/RZ.
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19
Compare the voltage waves from two different AC circuits, as shown in Figure 21-2.
<strong>Compare the voltage waves from two different AC circuits, as shown in Figure 21-2. The absolute value of the phase difference is</strong> A) 45°. B) -90°. C) 90°. D) zero. E) 180°.
The absolute value of the phase difference is

A) 45°.
B) -90°.
C) 90°.
D) zero.
E) 180°.
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20
Resonance in a series RLC circuit occurs when

A) XL is greater than XC.
B) XL equals XC.
C) (XL - XC )2 is equal to R2.
D) XC is greater than XL.
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21
If the inductance and the capacitance both double in an LRC series circuit, the resonant frequency of that circuit will

A) decrease to one-half its original value.
B) increase to four times its original value.
C) increase to twice its original value.
D) decrease to one-fourth its original value.
E) decrease to one-eighth its original value.
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22
American power plants usually supply 120. volts AC:
(a) at what frequency?
(b) at what maximum voltage?
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23
For an rms current of 5.0 amperes determine the maximum and peak-to-peak values.
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24
The output voltage of a power supply is V = Vo sin (120. t) volts. At t = 0.010 s the output voltage is 4.2 V. What is the rms voltage of the generator?
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25
A 100. Watt light bulb is powered by 120. v AC, 60. Hz household connection. Determine the rms current and the peak current.
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26
The peak output of a generator is 20. A and 240. V. What average power is provided by the generator?
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27
In an AC circuit the voltage varies as V = 96. sin (277 t) volts.
(a) What is the rms voltage?
(b) What is the frequency?
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28
The potential applied to a 20. Ω\Omega resistor is 60. cos (33. t) volts. What is the:
(a) instantaneous current?
(b) rms current?
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29
The current through a 50. Ω\Omega resistor is I = 0.80 sin (240. t) amperes.
(a) What is the peak current?
(b) What is the rms current?
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30
The current through a 50. Ω\Omega resistor is I = 0.80 sin (240. t) amperes.
(a) At what frequency does the current vary?
(b) How much power is dissipated in the resistor?
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31
A 150. W lamp is placed into a 120. V AC outlet.
(a) What are the peak and rms currents?
(b) What is the resistance of the lamp?
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32
The potential applied to a 20. Ω\Omega resistor is 60. cos (33. t) volts. What is the:
(a) frequency?
(b) average power?
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33
An AC voltage source has an amplitude of 96. V and frequency 400. Hz. The voltage was zero at t = 0 and was increasing.
(a) What is the effective rms voltage?
(b) What is the instantaneous voltage at 1.00 ms?
(c) When will the voltage be 40. V?
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34
A series RC circuit has resistance of 150 Ω\Omega and capacitance of 40. μ\mu F. It is driven by a 120. V, 60. Hz source.
(a) How much power is dissipated in the resistor?
(b) How much power is dissipated in the capacitor?
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35
What is the reactance of a 1.0 mH inductor at 60 Hz?
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36
The current in a coil increases from 2.0 A to 12. A in 50. ms. Calculate the voltage induced in the coil if its self-inductance is 0.120 H.
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37
At what frequency will the Inductive Reactance of 44. mH be equal to the Capacitive Reactance of a 27. pF capacitor?
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38
For what frequency range is the reactance of a 3.3 μ\mu F larger than a 3.3 Ω\Omega resistance where the capacitor, resistance, and a 3.3 mH inductor are in series?
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39
A 50. Ω\Omega resistor is placed in series with a 40. mH inductor. At what frequency will the current in such a circuit lag the applied voltage by exactly 45°?
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40
What current flows in a 60. mH inductor when 12. V AC at a frequency of 20. kHz is applied to it?
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41
A series RL circuit is driven by a 120. V, 60. Hz source. The values of the resistance and inductance are R = 20.0 Ω\Omega and L = 160. mH. Determine:
(a) the current.
(b) the phase angle between the current and the applied voltage.
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42
Given 30. μ\mu H and a 60. Ω\Omega resistor, what range of capacity allows tuning this series circuit to the FM band (88-108 MHz)?
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43
What capacitance will have the same reactance as a 100. mH inductance in a 120. V, 60. Hz circuit?
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44
A 120. mH inductor is in series with a 20. Ω\Omega resistor and a variable capacitor ( 0.110 μ\mu F to 0.400 μ\mu F)
(a) What is the range of resonant frequencies possible?
(b) Connected to a 24. volt rms source, what current flows at resonance?
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45
A resistor is connected to normal 60. Hz, 120. volt AC. How many times a second does the instantaneous dissipated POWER reach a maximum?

A) 30
B) 0
C) 240
D) 120
E) 60
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46
In an RLC circuit, the resistance is 10. ohms, the capacitive reactance is 30. ohms, and the inductive reactance is 50. ohms. What is the circuit impedance?

A) 63. <strong>In an RLC circuit, the resistance is 10. ohms, the capacitive reactance is 30. ohms, and the inductive reactance is 50. ohms. What is the circuit impedance?</strong> A) 63. B) 22. C) 10. D) 81. E) 90.
B) 22. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
C) 10. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
D) 81. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
E) 90. 11eea40e_be8e_7ac5_97f4_516006ddc11a_TB9720_11
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47
Consider a 4500. ohm resistor in series with a 133. mH inductor. What capacitance should be added in series so that the impedance is a minimum at 500. KHz?

A) 0.627 pF
B) 7.26 μ\mu F
C) 0.762 pF
D) 2.67 μ\mu F
E) 0.267 pF
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48
A series RLC circuit has R = 20. μ\mu , L = 200. mH, C = 10. μ\mu F. At what frequency should the circuit be driven in order to have maximum power transferred from the driving source?

A) 0.28 kHz
B) 0.96 kHz
C) 0.17 kHz
D) 0.11 kHz
E) 0.45 kHz
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49
A resistance of 55. <strong>A resistance of 55. , a capacitor of capacitive reactance 30. , and an inductor of inductive reactance 30. are connected in series to a 110. V, 60. Hz power source. What current flows in this circuit?</strong> A) more than 4. A B) 2. A C) more than 2. A but less than 4. A D) 4. A E) less than 2. A , a capacitor of capacitive reactance 30. 11eea40e_f9c3_5706_97f4_d114cf755d2c_TB9720_11, and an inductor of inductive reactance 30.11eea40e_f9c3_5706_97f4_d114cf755d2c_TB9720_11 are connected in series to a 110. V, 60. Hz power source. What current flows in this circuit?

A) more than 4. A
B) 2. A
C) more than 2. A but less than 4. A
D) 4. A
E) less than 2. A
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50
What size capacitor must be placed in series with a 30. <strong>What size capacitor must be placed in series with a 30. resistor and a 40. mH coil if the resonant frequency of the circuit is to be 1000. Hz?</strong> A) 6.0 \mu F B) 3.3 \mu F C) 0.63 \mu F D) 2.0 \mu F E) 4.5 \mu F resistor and a 40. mH coil if the resonant frequency of the circuit is to be 1000. Hz?

A) 6.0 μ\mu F
B) 3.3 μ\mu F
C) 0.63 μ\mu F
D) 2.0 μ\mu F
E) 4.5 μ\mu F
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