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Deck 9: Capacitors

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Question
If the plate area of a capacitor decreases, the capacitance decreases.
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Question
If the distance between the plates of a capacitor increases, the capacitance decreases.
Question
Efficient filtering is directly related to RC time constant.
Question
A capacitor will fully charge in about five time constants.
Question
Capacitance is the ability to store voltage.
Question
The voltage rating of a capacitor indicates the voltage it will charge up to.
Question
When two capacitors are connected in parallel across a dc source, the smaller capacitor drops the larger voltage.
Question
Capacitance is a capacitor's ability to store resistance.
Question
What is one time constant of a 4.7 µF capacitor in series with a 22 kΩ resistor?

A)1.03 ms
B)103 ms
C)10.3 ms
D)0.103 ms
Question
To find the total capacitance of two capacitors in parallel, you must combine them using a similar procedure as resistors in parallel.
Question
A capacitor blocks dc and passes ac.
Question
When two capacitors are connected in series across a dc source, the smallest capacitor drops the largest voltage.
Question
A capacitor can fully charge in one time constant.
Question
What is the capacitance of a capacitor that drops 50 V and stores 0.500 µC of charge?

A)0.01 µF
B)0.001 µF
C)1 µF
D)0.1 µF
Question
Leakage through a capacitor is undesirable.
Question
If a 0.022 µF, 0.022 µF and 0.05 µF capacitor are connected in series across a 25 V source, the voltage drop across the largest capacitor equals .

A)10.2 V
B)4.51 V
C)17.5 V
D)11.8 V
Question
If a 0.05 µF and 0.1 µF capacitor are connected in parallel across a 20 V source, the total capacitance equals _ and each capacitor drops _ .

A)0.05 µF, 15 V
B)0.15 µF, 10 V
C)0.10 µF, 20 V
D)0.15 µF, 20 V
Question
If the dc working voltage of a capacitor is 100 V, the dielectric must withstand .

A)220 VPP
B)75 VRMS
C)85 VRMS
D)100 VDC
Question
Electrolytic capacitors are ideal for alternating current applications.
Question
How much charge is stored in a 0.022 µF capacitor that drops 22 V?

A)0.0484 µC
B)0.484 µC
C)48.4 µC
D)4.84 µC
Question
How long will it take a 0.047 µF capacitor to fully charge through a 100 kΩ resistor?

A)0.235 ms
B)23.5 ms
C)2.35 s
D)235 ms
Question
If a 4.7 µF capacitor and a 10 kΩ resistor are connected in series across 25 VDC, approximately how much voltage will the resistor drop after charging for just one time constant?

A)15.8 V
B)21.6 V
C)9.20 V
D)23.8 V
Question
If a 4.7 µF capacitor operates at 10 kHz, XC equals .

A)294 µΩ
B)339 Ω
C)3.39 Ω
D)infinite Ω
Question
If four 0.022 µF capacitors are connected in parallel, CT equals .

A)0.088 µF
B)0.022 µF
C)0.044 µF
D)0.049 µF
Question
If a 1 µF capacitor and a 10 kΩ resistor are connected in series across 20 VDC, approximately how much voltage will the capacitor drop after charging for just one time constant?

A)12.6 V
B)11.0 V
C)17 V
D)12.1 V
Question
What is the capacitance that stores 1.175 µC of charge and drops 25 V?

A)0.047 µF
B)47 µF
C)4.7 µF
D)0.47 µF
Question
At what frequency is a 2000 pF capacitor operating if its reactance is 745 Ω?

A)1.01 kHz
B)10.1 kHz
C)1010 Hz
D)107 kHz
Question
If a 0.1 µF, 0.1 µF and 0.05 µF capacitor are connected in series across a 75 V source, the voltage drop across the smallest capacitor equals .

A)37.5 V
B)18.8 V
C)50 V
D)100 V
Question
How long will it take to completely charge a 0.047 µF capacitor through a 1 MΩ resistor?

A)0.029 s
B)0.047 s
C)0.235 s
D)0.47 s
Question
How much charge is stored in a 0.47 µF capacitor that drops 18 V?

A)8.46 µC
B)846 µC
C)0.846 µC
D)84.6 µC
Question
How long will it take a 1 µF capacitor to completely discharge through a 47 kΩ resistor?

A)47 s
B)47 ms
C)235 ms
D)235 s
Question
If a 1 µF, 2.2 µF and 0.05 µF capacitor are connected in series, CT is less than _ .

A)0.05 µF
B)2.2 µF
C)0.001 µF
D)1 µF
Question
If an uncharged capacitor, a resistor, a switch and a 12 V battery are connected in series, what is the voltage across the capacitor after it is fully charged?

A)6 V
B)-6 V
C)12 V
D)24 V
Question
If a 22 µF capacitor is connected to a 15 V 400 Hz source, its current equals .

A)18.1 mA
B)829 mA
C)1.81 A
D)55 mA
Question
If a 0.1 µF capacitor and a 2.2 kΩ resistor are connected in series across 30 VDC, how much voltage will the capacitor drop after charging for just one time constant?

A)29.4 V
B)28.5 V
C)19.0 V
D)25.9 V
Question
If an uncharged capacitor, a resistor, a switch and a 12 V battery are connected in series, what is the voltage across the capacitor at the instant the switch is closed?

A)6 V
B)0 V
C)24 V
D)12 V
Question
A capacitor that transfers an ac signal from one stage to another is called a capacitor.

A)transfer
B)bypass
C)filter
D)coupling
Question
If an uncharged capacitor, a resistor, a switch and a 12 V battery are connected in series, at approximately what time will the capacitor reach full charge?

A)5 × R × C
B)R × C
C)12 × R × C
D)The time cannot be predicted.
Question
If the frequency applied to a capacitor increases, the capacitive reactance .

A)increases
B)remains the same
C)varies up and down
D)decreases
Question
What is the minimum dc working voltage rating for a capacitor that must drop 120 VRMS?

A)84.8 V
B)170 V
C)339 V
D)120 V
Question
When capacitors are connected in series, their total capacitance act like:

A)resistance connected in series.
B)resistance connected in series -parallel.
C)resistance connected in parallel.
D)all of these.
Question
When capacitors are connected in parallel, their total capacitance act like:

A)resistance connected in parallel.
B)resistance connected in series.
C)resistance connected in series -parallel.
D)all of these.
Question
How long will it take for a 22 µF capacitor to completely charge through a 47 kΩ resistor?

A)8.272 s
B)2.068 s
C)1.034 s
D)5.17 s
Question
What is one time constant of a 47 µF capacitor in series with a 120 kΩ resistor?

A)54.6 s
B)5.64 s
C)564 ms
D)0.564 ms
Question
If a 47 µF capacitor is connected to a 20 V, 400 Hz source, the current is .

A)0.851 A
B)425 A
C)8.51 A
D)2.36 A
Question
<strong> What is CT in Figure 9 -1? </strong> A)70.1 µF B)8.78 µF C)25.2 µF D)82 µF <div style=padding-top: 35px>
What is CT in Figure 9 -1?

A)70.1 µF
B)8.78 µF
C)25.2 µF
D)82 µF
Question
If a 0.047 µF, 0.047 µF and 0.47 µF capacitor are connected in series across a 25 V source, the total capacitance equals _ and each 0.047 µF capacitor drops .

A)0.022 µF, 11.9 V
B)0.022 µF, 25 V
C)0.564 µF, 11.9 V
D)0.564 µF, 1.2 V
Question
How much voltage is dropped across a 150 µF capacitor after 3.33 seconds if it is charged by a 50 V source through a 22 KΩ resistor?

A)49 V
B)43.3 V
C)31.8 V
D)47.5 V
Question
Reactive power (Pr)in a capacitor is defined as the rate at which a capacitor stores or returns energy and is measured in:

A)volt -ampere reactive.
B)current per time constant.
C)watts reactive.
D)volts per time constant.
Question
Electrolytic capacitors differ from many other capacitors in construction in that they are:

A)polarized.
B)larger.
C)sensitized.
D)smaller.
Question
How long will it take for a 22 µF capacitor to completely discharge through a 4.7 kΩ resistor?

A)0.827 s
B)0.207 s
C)0.517 s
D)0.103 s
Question
There is often a capacitor connected to ground between the bridge rectifier and the voltage regulator in a power supply. In order to limit surge current a bridge and the regulator.
Is inserted between the

A)series capacitor
B)surge capacitor
C)surge resistor
D)a shunt inductor
Question
At what frequency is a 0.001 µF capacitor operating if its reactance is 45 kΩ?

A)354 kHz
B)3.54 MHz
C)3.54 kHz
D)35.4 kHz
Question
When connecting a large electrolytic capacitor to a circuit with a 100 VDC source, place the negative end of the capacitor .

A)towards the positive side of the source
B)in either position; the polarity is not important
C)towards the negative side of the source
Question
The time constant of a capacitor is:

A)directly proportional to the capacitance in the circuit.
B)directly proportional to the resistance in the circuit.
C)the time required to charge to 63% or discharge to 37%.
D)all of these.
Question
The time constant for a capacitor for each time period is:

A)a constant factor.
B)37% of the decrease in value.
C)63% of the increase in value.
D)all of these.
Question
In a transistor amplifier the input ac signal and the output of the amplifier must be connected in a way that not does affect the dc bias voltage. This is accomplished by using a(n)capacitor.

A)isolation
B)large value
C)small value
D)coupling
Question
If a 22 µF and 100 µF capacitor are connected in parallel across a 15 V source, the total capacitance equals _ and the 22 µF capacitor drops .

A)18 µF, 15 V
B)122 µF, 15 V
C)1220 µF, 30 V
D)18 µF, 5.2 V
Question
Electrolytic capacitors must be connected into a circuit such that:

A)reversal of polarity does not happen.
B)voltage rating marked is not exceeded.
C)positive lead to positive voltage; negative lead to negative voltage.
D)all of these.
Question
If a 0.047 µF capacitor operates at 220 kHz, XC equals .

A)1.54 kΩ
B)154 Ω
C)15.4 kΩ
D)15.4 Ω
Question
A 65 Vrms signal is applied to a 10 F capacitor. What is the total peak current?

A)6.5 A
B)153 mA
C)6.5 kA
D)not enough information
Question
A commonplace use for capacitors in electronics is to:

A)pass DC voltages only.
B)block DC voltages.
C)block AC voltages.
D)pass both AC and DC voltages.
Question
A test instrument designed to be used for the testing of capacitors is the .

A)oscilloscope
B)digital multimeter
C)analog multimeter
D)LCR Meter
Question
The removal of high frequency transient voltages with a capacitor is called:

A)coupling.
B)decoupling.
C)bypassing.
D)ac blocking.
Question
In a capacitive AC circuit, the phase relationship between the voltage and the current is such that the:

A)current is 180 degrees out of phase with voltage.
B)voltage is 360 degrees out of phase with current.
C)current is leading the voltage.
D)voltage is leading the current.
Question
Upon checking the voltage output of a power supply with an oscilloscope, you notice an unusually large amount of ripple. What could possibly be the problem?

A)shorted filter capacitor
B)open filter capacitor
C)shorted load
D)either B or C
Question
With three capacitors in series, the current lags the voltage by:

A)30 degrees.
B)45 degrees.
C)90 degrees.
D)none of the above.
Question
A common use for electrolytic capacitors found in power supplies is .

A)filtering
B)passing AC
C)decoupling
D)blocking DC
Question
What is the small amount of power lost in a capacitive circuit due to the internal resistance of the capacitors?

A)instantaneous power
B)true power
C)reactive power
D)ideal power
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Deck 9: Capacitors
1
If the plate area of a capacitor decreases, the capacitance decreases.
True
2
If the distance between the plates of a capacitor increases, the capacitance decreases.
True
3
Efficient filtering is directly related to RC time constant.
True
4
A capacitor will fully charge in about five time constants.
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k this deck
5
Capacitance is the ability to store voltage.
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6
The voltage rating of a capacitor indicates the voltage it will charge up to.
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7
When two capacitors are connected in parallel across a dc source, the smaller capacitor drops the larger voltage.
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8
Capacitance is a capacitor's ability to store resistance.
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9
What is one time constant of a 4.7 µF capacitor in series with a 22 kΩ resistor?

A)1.03 ms
B)103 ms
C)10.3 ms
D)0.103 ms
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10
To find the total capacitance of two capacitors in parallel, you must combine them using a similar procedure as resistors in parallel.
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11
A capacitor blocks dc and passes ac.
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12
When two capacitors are connected in series across a dc source, the smallest capacitor drops the largest voltage.
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13
A capacitor can fully charge in one time constant.
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14
What is the capacitance of a capacitor that drops 50 V and stores 0.500 µC of charge?

A)0.01 µF
B)0.001 µF
C)1 µF
D)0.1 µF
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15
Leakage through a capacitor is undesirable.
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16
If a 0.022 µF, 0.022 µF and 0.05 µF capacitor are connected in series across a 25 V source, the voltage drop across the largest capacitor equals .

A)10.2 V
B)4.51 V
C)17.5 V
D)11.8 V
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17
If a 0.05 µF and 0.1 µF capacitor are connected in parallel across a 20 V source, the total capacitance equals _ and each capacitor drops _ .

A)0.05 µF, 15 V
B)0.15 µF, 10 V
C)0.10 µF, 20 V
D)0.15 µF, 20 V
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18
If the dc working voltage of a capacitor is 100 V, the dielectric must withstand .

A)220 VPP
B)75 VRMS
C)85 VRMS
D)100 VDC
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19
Electrolytic capacitors are ideal for alternating current applications.
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20
How much charge is stored in a 0.022 µF capacitor that drops 22 V?

A)0.0484 µC
B)0.484 µC
C)48.4 µC
D)4.84 µC
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21
How long will it take a 0.047 µF capacitor to fully charge through a 100 kΩ resistor?

A)0.235 ms
B)23.5 ms
C)2.35 s
D)235 ms
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22
If a 4.7 µF capacitor and a 10 kΩ resistor are connected in series across 25 VDC, approximately how much voltage will the resistor drop after charging for just one time constant?

A)15.8 V
B)21.6 V
C)9.20 V
D)23.8 V
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23
If a 4.7 µF capacitor operates at 10 kHz, XC equals .

A)294 µΩ
B)339 Ω
C)3.39 Ω
D)infinite Ω
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24
If four 0.022 µF capacitors are connected in parallel, CT equals .

A)0.088 µF
B)0.022 µF
C)0.044 µF
D)0.049 µF
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25
If a 1 µF capacitor and a 10 kΩ resistor are connected in series across 20 VDC, approximately how much voltage will the capacitor drop after charging for just one time constant?

A)12.6 V
B)11.0 V
C)17 V
D)12.1 V
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26
What is the capacitance that stores 1.175 µC of charge and drops 25 V?

A)0.047 µF
B)47 µF
C)4.7 µF
D)0.47 µF
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27
At what frequency is a 2000 pF capacitor operating if its reactance is 745 Ω?

A)1.01 kHz
B)10.1 kHz
C)1010 Hz
D)107 kHz
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28
If a 0.1 µF, 0.1 µF and 0.05 µF capacitor are connected in series across a 75 V source, the voltage drop across the smallest capacitor equals .

A)37.5 V
B)18.8 V
C)50 V
D)100 V
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29
How long will it take to completely charge a 0.047 µF capacitor through a 1 MΩ resistor?

A)0.029 s
B)0.047 s
C)0.235 s
D)0.47 s
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30
How much charge is stored in a 0.47 µF capacitor that drops 18 V?

A)8.46 µC
B)846 µC
C)0.846 µC
D)84.6 µC
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31
How long will it take a 1 µF capacitor to completely discharge through a 47 kΩ resistor?

A)47 s
B)47 ms
C)235 ms
D)235 s
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32
If a 1 µF, 2.2 µF and 0.05 µF capacitor are connected in series, CT is less than _ .

A)0.05 µF
B)2.2 µF
C)0.001 µF
D)1 µF
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33
If an uncharged capacitor, a resistor, a switch and a 12 V battery are connected in series, what is the voltage across the capacitor after it is fully charged?

A)6 V
B)-6 V
C)12 V
D)24 V
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34
If a 22 µF capacitor is connected to a 15 V 400 Hz source, its current equals .

A)18.1 mA
B)829 mA
C)1.81 A
D)55 mA
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35
If a 0.1 µF capacitor and a 2.2 kΩ resistor are connected in series across 30 VDC, how much voltage will the capacitor drop after charging for just one time constant?

A)29.4 V
B)28.5 V
C)19.0 V
D)25.9 V
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36
If an uncharged capacitor, a resistor, a switch and a 12 V battery are connected in series, what is the voltage across the capacitor at the instant the switch is closed?

A)6 V
B)0 V
C)24 V
D)12 V
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37
A capacitor that transfers an ac signal from one stage to another is called a capacitor.

A)transfer
B)bypass
C)filter
D)coupling
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38
If an uncharged capacitor, a resistor, a switch and a 12 V battery are connected in series, at approximately what time will the capacitor reach full charge?

A)5 × R × C
B)R × C
C)12 × R × C
D)The time cannot be predicted.
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39
If the frequency applied to a capacitor increases, the capacitive reactance .

A)increases
B)remains the same
C)varies up and down
D)decreases
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40
What is the minimum dc working voltage rating for a capacitor that must drop 120 VRMS?

A)84.8 V
B)170 V
C)339 V
D)120 V
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41
When capacitors are connected in series, their total capacitance act like:

A)resistance connected in series.
B)resistance connected in series -parallel.
C)resistance connected in parallel.
D)all of these.
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42
When capacitors are connected in parallel, their total capacitance act like:

A)resistance connected in parallel.
B)resistance connected in series.
C)resistance connected in series -parallel.
D)all of these.
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43
How long will it take for a 22 µF capacitor to completely charge through a 47 kΩ resistor?

A)8.272 s
B)2.068 s
C)1.034 s
D)5.17 s
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44
What is one time constant of a 47 µF capacitor in series with a 120 kΩ resistor?

A)54.6 s
B)5.64 s
C)564 ms
D)0.564 ms
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45
If a 47 µF capacitor is connected to a 20 V, 400 Hz source, the current is .

A)0.851 A
B)425 A
C)8.51 A
D)2.36 A
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46
<strong> What is CT in Figure 9 -1? </strong> A)70.1 µF B)8.78 µF C)25.2 µF D)82 µF
What is CT in Figure 9 -1?

A)70.1 µF
B)8.78 µF
C)25.2 µF
D)82 µF
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47
If a 0.047 µF, 0.047 µF and 0.47 µF capacitor are connected in series across a 25 V source, the total capacitance equals _ and each 0.047 µF capacitor drops .

A)0.022 µF, 11.9 V
B)0.022 µF, 25 V
C)0.564 µF, 11.9 V
D)0.564 µF, 1.2 V
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48
How much voltage is dropped across a 150 µF capacitor after 3.33 seconds if it is charged by a 50 V source through a 22 KΩ resistor?

A)49 V
B)43.3 V
C)31.8 V
D)47.5 V
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49
Reactive power (Pr)in a capacitor is defined as the rate at which a capacitor stores or returns energy and is measured in:

A)volt -ampere reactive.
B)current per time constant.
C)watts reactive.
D)volts per time constant.
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Unlock for access to all 69 flashcards in this deck.
Unlock Deck
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50
Electrolytic capacitors differ from many other capacitors in construction in that they are:

A)polarized.
B)larger.
C)sensitized.
D)smaller.
Unlock Deck
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Unlock Deck
k this deck
51
How long will it take for a 22 µF capacitor to completely discharge through a 4.7 kΩ resistor?

A)0.827 s
B)0.207 s
C)0.517 s
D)0.103 s
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52
There is often a capacitor connected to ground between the bridge rectifier and the voltage regulator in a power supply. In order to limit surge current a bridge and the regulator.
Is inserted between the

A)series capacitor
B)surge capacitor
C)surge resistor
D)a shunt inductor
Unlock Deck
Unlock for access to all 69 flashcards in this deck.
Unlock Deck
k this deck
53
At what frequency is a 0.001 µF capacitor operating if its reactance is 45 kΩ?

A)354 kHz
B)3.54 MHz
C)3.54 kHz
D)35.4 kHz
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54
When connecting a large electrolytic capacitor to a circuit with a 100 VDC source, place the negative end of the capacitor .

A)towards the positive side of the source
B)in either position; the polarity is not important
C)towards the negative side of the source
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Unlock Deck
k this deck
55
The time constant of a capacitor is:

A)directly proportional to the capacitance in the circuit.
B)directly proportional to the resistance in the circuit.
C)the time required to charge to 63% or discharge to 37%.
D)all of these.
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56
The time constant for a capacitor for each time period is:

A)a constant factor.
B)37% of the decrease in value.
C)63% of the increase in value.
D)all of these.
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57
In a transistor amplifier the input ac signal and the output of the amplifier must be connected in a way that not does affect the dc bias voltage. This is accomplished by using a(n)capacitor.

A)isolation
B)large value
C)small value
D)coupling
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58
If a 22 µF and 100 µF capacitor are connected in parallel across a 15 V source, the total capacitance equals _ and the 22 µF capacitor drops .

A)18 µF, 15 V
B)122 µF, 15 V
C)1220 µF, 30 V
D)18 µF, 5.2 V
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59
Electrolytic capacitors must be connected into a circuit such that:

A)reversal of polarity does not happen.
B)voltage rating marked is not exceeded.
C)positive lead to positive voltage; negative lead to negative voltage.
D)all of these.
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60
If a 0.047 µF capacitor operates at 220 kHz, XC equals .

A)1.54 kΩ
B)154 Ω
C)15.4 kΩ
D)15.4 Ω
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61
A 65 Vrms signal is applied to a 10 F capacitor. What is the total peak current?

A)6.5 A
B)153 mA
C)6.5 kA
D)not enough information
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62
A commonplace use for capacitors in electronics is to:

A)pass DC voltages only.
B)block DC voltages.
C)block AC voltages.
D)pass both AC and DC voltages.
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63
A test instrument designed to be used for the testing of capacitors is the .

A)oscilloscope
B)digital multimeter
C)analog multimeter
D)LCR Meter
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64
The removal of high frequency transient voltages with a capacitor is called:

A)coupling.
B)decoupling.
C)bypassing.
D)ac blocking.
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65
In a capacitive AC circuit, the phase relationship between the voltage and the current is such that the:

A)current is 180 degrees out of phase with voltage.
B)voltage is 360 degrees out of phase with current.
C)current is leading the voltage.
D)voltage is leading the current.
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66
Upon checking the voltage output of a power supply with an oscilloscope, you notice an unusually large amount of ripple. What could possibly be the problem?

A)shorted filter capacitor
B)open filter capacitor
C)shorted load
D)either B or C
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67
With three capacitors in series, the current lags the voltage by:

A)30 degrees.
B)45 degrees.
C)90 degrees.
D)none of the above.
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68
A common use for electrolytic capacitors found in power supplies is .

A)filtering
B)passing AC
C)decoupling
D)blocking DC
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69
What is the small amount of power lost in a capacitive circuit due to the internal resistance of the capacitors?

A)instantaneous power
B)true power
C)reactive power
D)ideal power
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