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Deck 28: Three-Phase Ac Power Systems
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In a Y-Y configuration shown in this figure (27-13) below, the circuit connections reveal that each load impedance is in ______________ with a phase voltage.
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This figure (27-15) below shows a ∆-connected generator driving a balanced, ______________ load.
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In this figure (27-1) below, the connection of the generator windings is called the 
A) Y
B) ?
C) Neutral
D) Sine
A) Y
B) ?
C) Neutral
D) Sine
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In this figure (27-5) below, phasors VBN angle ? and VNB angle ? are 
A) equal in magnitude but 90° out of phase with each other
B) equal in magnitude but 180° out of phase with each other
C) equal in magnitude and in phase with each other
D) not equal in magnitude and 180° out of phase with each other
A) equal in magnitude but 90° out of phase with each other
B) equal in magnitude but 180° out of phase with each other
C) equal in magnitude and in phase with each other
D) not equal in magnitude and 180° out of phase with each other
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The figure shown (27-14) below shows a Y-connected generator driving a balanced, 
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
Question
The figure shown (27-15) below shows a ?-connected generator driving a balanced, 
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
Question
In the ?-? configuration shown in this figure (27-15) below, the magnitude of each voltage is the same, but the load voltages are 
A) 45° out of phase
B) 90° out of phase
C) 120° out of phase
D) 180° out of phase
A) 45° out of phase
B) 90° out of phase
C) 120° out of phase
D) 180° out of phase
Question
Close examination of the circuit connections shown in this figure (27-16(a)) below, shows that the current 
A) in each load is equal to its corresponding line current
B) in each load is greater than its corresponding line current
C) in each load is less than its corresponding line current
D) in each load is always zero
A) in each load is equal to its corresponding line current
B) in each load is greater than its corresponding line current
C) in each load is less than its corresponding line current
D) in each load is always zero
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Deck 28: Three-Phase Ac Power Systems
1
In a Y-connected three-phase generator, the line voltage, VL equals ______________.
√3Vθ
2
In a three-phase AC generator, the currents in the individual coil windings are commonly called ______________ currents.
phase
3
In a Y-connected three-phase AC generator, the formula used to calculate the phase voltage, Vθ is ______________.
VL/√3
4
In a ∆-connected three-phase generator, the ______________ voltages are 120° out of phase with each other.
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5
In a Y-Y configuration shown in this figure (27-13) below, the circuit connections reveal that each load impedance is in ______________ with a phase voltage.
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6
In a ______________ configuration, each load impedance has the full line voltage across it.
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7
This figure (27-15) below shows a ∆-connected generator driving a balanced, ______________ load.
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8
In general, the load voltage, VZ, in a ______________ configuration equals VL/√3.
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9
In a balanced Y-connected load, the total power dissipated by a balanced load is ______________ times the power dissipated by an individual load.
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10
When using any of the power formulas, the phase angle, θ, is the phase angle of the ______________.
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11
In a Y-connected generator, the voltage across any combination of output terminals is called the ______________ voltage.
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12
In a ∆-connected three-phase AC generator, line current, IL equals ______________.
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13
In any three-phase source/load configuration, if all of the impedances in a load are not identical, the load is said to be ______________.
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14
In a Y-Y system with a balanced load, the current in the neutral wire is always ______________.
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15
The formula used to calculate total power, PT, for a balanced Y-Y configuration is ______________.
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16
A generator with three separate windings, equally spaced around the circle, will produce
A) three different output voltages 120° out of phase with each other
B) three different output voltages 60° out of phase with each other
C) three different output voltages 90° out of phase with each other
D) three different output voltages 180° out of phase with each other
A) three different output voltages 120° out of phase with each other
B) three different output voltages 60° out of phase with each other
C) three different output voltages 90° out of phase with each other
D) three different output voltages 180° out of phase with each other
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17
In this figure (27-1) below, the connection of the generator windings is called the
A) Y
B) ?
C) Neutral
D) Sine
A) Y
B) ?
C) Neutral
D) Sine
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18
In a delta-connected three-phase AC generator,
A) IL = 1/?3I?
B) IL = 3?I?
C) IL = 3/I?
D) IL = ?3I?
A) IL = 1/?3I?
B) IL = 3?I?
C) IL = 3/I?
D) IL = ?3I?
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19
In this figure (27-5) below, phasors VBN angle ? and VNB angle ? are
A) equal in magnitude but 90° out of phase with each other
B) equal in magnitude but 180° out of phase with each other
C) equal in magnitude and in phase with each other
D) not equal in magnitude and 180° out of phase with each other
A) equal in magnitude but 90° out of phase with each other
B) equal in magnitude but 180° out of phase with each other
C) equal in magnitude and in phase with each other
D) not equal in magnitude and 180° out of phase with each other
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20
In a Y-connected generator, the voltage across any combination of output terminals is called the
A) load voltage
B) terminal voltage
C) line voltage
D) phase voltage
A) load voltage
B) terminal voltage
C) line voltage
D) phase voltage
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21
In a Y-connected generator, VL is equal to
A) ?3V?
B) 3?V?
C) 1/?3V?
D) V??3
A) ?3V?
B) 3?V?
C) 1/?3V?
D) V??3
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22
In a delta-connected three-phase generator, the phase difference between each phase voltage is
A) 0°
B) 90°
C) 120°
D) 180°
A) 0°
B) 90°
C) 120°
D) 180°
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23
In a Y-Y configuration, since the neutral point is connected between the source and the load,
A) this is a three-phase four-wire system
B) this is a single-phase four-wire system
C) this is a three-phase three-wire system
D) this is a single-phase three-wire system
A) this is a three-phase four-wire system
B) this is a single-phase four-wire system
C) this is a three-phase three-wire system
D) this is a single-phase three-wire system
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24
In a Y-Y system with a balanced load, the current in the neutral wire is always
A) very high
B) zero
C) greater than the load current
D) greater than the line current
A) very high
B) zero
C) greater than the load current
D) greater than the line current
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25
The figure shown (27-14) below shows a Y-connected generator driving a balanced,
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
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26
The figure shown (27-15) below shows a ?-connected generator driving a balanced,
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
A) Y-connected load
B) ?-connected load
C) phase-connected load
D) neutral-connected load
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27
In the ?-? configuration shown in this figure (27-15) below, the magnitude of each voltage is the same, but the load voltages are
A) 45° out of phase
B) 90° out of phase
C) 120° out of phase
D) 180° out of phase
A) 45° out of phase
B) 90° out of phase
C) 120° out of phase
D) 180° out of phase
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28
Close examination of the circuit connections shown in this figure (27-16(a)) below, shows that the current
A) in each load is equal to its corresponding line current
B) in each load is greater than its corresponding line current
C) in each load is less than its corresponding line current
D) in each load is always zero
A) in each load is equal to its corresponding line current
B) in each load is greater than its corresponding line current
C) in each load is less than its corresponding line current
D) in each load is always zero
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29
In general, the load voltage, VZ in a ?-Y configuration equals
A) ?3/VL
B) VL/?3
C) 3?VL
D) VL?3
A) ?3/VL
B) VL/?3
C) 3?VL
D) VL?3
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30
In a balanced Y-connected load,
A) each load impedance dissipates an equal amount of power
B) each load impedance dissipates different amounts of power
C) load impedances dissipate zero power
D) load impedances dissipate very high power
A) each load impedance dissipates an equal amount of power
B) each load impedance dissipates different amounts of power
C) load impedances dissipate zero power
D) load impedances dissipate very high power
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31
In a balanced Y-connected load, the total power is equal to
A) 1/3PZ
B) 3PZ
C) 1/?3PZ
D) ?3PZ
A) 1/3PZ
B) 3PZ
C) 1/?3PZ
D) ?3PZ
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32
When using any of the power formulas, the phase angle, ?, is the
A) phase angle of the current
B) phase angle of the voltage
C) phase angle of the impedance
D) phase angle of the resistance
A) phase angle of the current
B) phase angle of the voltage
C) phase angle of the impedance
D) phase angle of the resistance
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33
In a balanced three-phase AC circuit, the instantaneous power delivered to the load
A) is steady
B) is zero
C) is extremely high
D) decreases to zero twice during each cycle of alternating voltage
A) is steady
B) is zero
C) is extremely high
D) decreases to zero twice during each cycle of alternating voltage
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34
As compared to single-phase motors, three-phase motors
A) need a special starting capacitor
B) are smaller
C) weigh more
D) less economical
A) need a special starting capacitor
B) are smaller
C) weigh more
D) less economical
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35
A generator with three separate windings, equally spaced around the circle, will produce three different output voltages 120° out of phase with each other.
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36
Because each line current is a combination of two phase currents, the line current is greater than any individual phase current.
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37
The term phase always refers to the delta configuration.
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38
In a Y-connected generator, the voltage across any combination of output terminals such as A and B, B and C, or C and A is called the line voltage.
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39
In a Y-connected three-phase AC generator, the formula used to calculate VL is ?3V?.
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40
In a delta-connected generator, the phase voltage and the line voltage are much less than the voltage induced across each coil winding in the generator.
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41
The output from a delta-connected three-phase AC generator can only be connected to a load that is arranged in a Y configuration.
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42
Four-wire systems are useful when it is desired to have different load voltages.
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43
In a Y-Y system with a balanced load, the current in the neutral wire is always very high.
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44
In a Y-? configuration, each load impedance has the full line voltage across it.
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45
The load voltage, VZ in a ?-Y configuration is equal to ?3/VL.
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46
In a balanced Y-connected load, each load impedance dissipates an equal amount of power.
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47
The total power dissipated by a balanced Y-connected load is three times the power dissipated by an individual load.
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48
Three-phase systems are more efficient and more economical to implement and use than single-phase systems.
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49
In a balanced three-phase AC circuit, the instantaneous power delivered to the load is constant.
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