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Deck 10: Rc Circuits

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Question
<strong> If the operating frequency increases in Figure 10-1, how does the current change?</strong> A)It decreases. B)It remains the same. C)It decreases to zero. D)It increases. <div style=padding-top: 35px>
If the operating frequency increases in Figure 10-1, how does the current change?

A)It decreases.
B)It remains the same.
C)It decreases to zero.
D)It increases.
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Question
The phasor combination of VR and VC in an RC series circuit equals the source voltage.
Question
An RC circuit can be used as a filter to eliminate selected frequencies
Question
A high pass filter Will cause some phase shifting of the signal.
Question
The phasor combination of XC and R is called Z .
Question
<strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88 <div style=padding-top: 35px>
If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?

A) 66<strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88 <div style=padding-top: 35px>
B) 22 <strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88 <div style=padding-top: 35px>
C) 44 <strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88 <div style=padding-top: 35px>
D) 88 <strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88 <div style=padding-top: 35px>
Question
<strong> If the operating frequency increases in Figure 10-1, how does the resistor value change?</strong> A)It increases. B)It decreases. C)It opens. D)It remains the same. <div style=padding-top: 35px>
If the operating frequency increases in Figure 10-1, how does the resistor value change?

A)It increases.
B)It decreases.
C)It opens.
D)It remains the same.
Question
A VA rating is more relevant When judging the current delivery capacity for a given signal source.
Question
As the frequency applied to an RC circuit increases, the impedance decreases.
Question
The phase angle of an RC circuit varies inverselyW ith frequency.
Question
The total current in an RC circuit always leads the source Voltage.
Question
As the frequency applied to an RC circuit varies, both XC and resistance vary.
Question
The total current in an RC circuit always lags the source Voltage.
Question
<strong> If the operating frequency increases in Figure 10-1, how does the phase angle change?</strong> A)It remains the name. B)It increases. C)It decreases. D)It changes to another quadrant. <div style=padding-top: 35px>
If the operating frequency increases in Figure 10-1, how does the phase angle change?

A)It remains the name.
B)It increases.
C)It decreases.
D)It changes to another quadrant.
Question
<strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120 <div style=padding-top: 35px>
What is the circuit's impedance in Figure 10-1?

A) 520 <strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120 <div style=padding-top: 35px>
B) 418 <strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120 <div style=padding-top: 35px>
C) 280<strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120 <div style=padding-top: 35px>
D) 120 <strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120 <div style=padding-top: 35px>
Question
When the frequency applied to an RC circuit varies, the value of XC varies.
Question
As the frequency applied to an RC circuit is decreased, the phase angle decreases.
Question
<strong> What is the true power in Figure 10-1?</strong> A)916 mW B)5.73W C)275 mW D)5.73 mW <div style=padding-top: 35px>
What is the true power in Figure 10-1?

A)916 mW
B)5.73W
C)275 mW
D)5.73 mW
Question
A leaky capacitor can be equated as a capacitor With a resistor being placed in series With it.
Question
Power factor values close to 0 denotes an RC circuit with mostly true power.
Question
<strong> What is the cutoff frequency in Figure 10-3?</strong> A)995 Hz B)85 Hz C)1012 Hz D)118 Hz <div style=padding-top: 35px>
What is the cutoff frequency in Figure 10-3?

A)995 Hz
B)85 Hz
C)1012 Hz
D)118 Hz
Question
<strong> The circuit in Figure 10-3 is known as a ________.</strong> A)high-pass filter B)parallel RC circuit C)low-pass filter D)band-pass filter <div style=padding-top: 35px>
The circuit in Figure 10-3 is known as a ________.

A)high-pass filter
B)parallel RC circuit
C)low-pass filter
D)band-pass filter
Question
<strong> If the operating frequency decreases in Figure 10-1, how does the capacitance value change?</strong> A)It decreases to zero. B)It decreases. C)It increases. D)It remains the same. <div style=padding-top: 35px>
If the operating frequency decreases in Figure 10-1, how does the capacitance value change?

A)It decreases to zero.
B)It decreases.
C)It increases.
D)It remains the same.
Question
<strong> If the operating frequency decreases in Figure 10-1, how does the resistance value change?</strong> A)It remains the same. B)It opens. C)It increases. D)It decreases. <div style=padding-top: 35px>
If the operating frequency decreases in Figure 10-1, how does the resistance value change?

A)It remains the same.
B)It opens.
C)It increases.
D)It decreases.
Question
<strong> How much voltage does the resistor drop in Figure 10-2?</strong> A)19.94V B)10V C)20V D)59 mV <div style=padding-top: 35px>
How much voltage does the resistor drop in Figure 10-2?

A)19.94V
B)10V
C)20V
D)59 mV
Question
<strong> What change would decrease the power factor in Figure 10-2 ?</strong> A) increasing the value of the resistor B) decreasing the value of the capacitor C) increasing the value of V<sub>s</sub> D) increasing the value of the capacitor <div style=padding-top: 35px>
What change would decrease the power factor in Figure 10-2 ?

A) increasing the value of the resistor
B) decreasing the value of the capacitor
C) increasing the value of Vs
D) increasing the value of the capacitor
Question
<strong> If the frequency decreases in Figure 10-1, the phase angle ________ and the impedance ________.</strong> A)decreases, increases B)decreases, decreases C)increases, increases D)increases, decreases <div style=padding-top: 35px>
If the frequency decreases in Figure 10-1, the phase angle ________ and the impedance ________.

A)decreases, increases
B)decreases, decreases
C)increases, increases
D)increases, decreases
Question
<strong> If the frequency increases in Figure 10-1, the phase angle ________ and the impedance ________.</strong> A)decreases, decreases B)decreases, increases C)increases, decreases D)increases, increases <div style=padding-top: 35px>
If the frequency increases in Figure 10-1, the phase angle ________ and the impedance ________.

A)decreases, decreases
B)decreases, increases
C)increases, decreases
D)increases, increases
Question
<strong> Which statement describes the relationship of I<sub>C</sub> and I<sub>R</sub> in Figure 10-2?</strong> A) I<sub>C</sub> leads I<sub>R</sub>. B) They are in phase. C) I<sub>C</sub> lags I<sub>R</sub>. D) They are 180° out of phase. <div style=padding-top: 35px>
Which statement describes the relationship of IC and IR in Figure 10-2?

A) IC leads IR.
B) They are in phase.
C) IC lags IR.
D) They are 180° out of phase.
Question
<strong> If the resistor changes to 2.2 in Figure 10-1, how does the total current change?</strong> A) It decreases. B) It remains the same. C) It decreases to zero. D) It increases. <div style=padding-top: 35px>
If the resistor changes to 2.2 <strong> If the resistor changes to 2.2 in Figure 10-1, how does the total current change?</strong> A) It decreases. B) It remains the same. C) It decreases to zero. D) It increases. <div style=padding-top: 35px> in Figure 10-1, how does the total current change?

A) It decreases.
B) It remains the same.
C) It decreases to zero.
D) It increases.
Question
<strong> If the source voltage is changed to 100 V in Figure 10-1, find the true power.</strong> A)22.9 mW B)3.66W C)22.9W D)11W <div style=padding-top: 35px>
If the source voltage is changed to 100 V in Figure 10-1, find the true power.

A)22.9 mW
B)3.66W
C)22.9W
D)11W
Question
<strong> If the operating frequency decreases in Figure 10-1, how does the current change?</strong> A)It increases. B)It decreases. C)It decreases to zero. D)It remains the same. <div style=padding-top: 35px>
If the operating frequency decreases in Figure 10-1, how does the current change?

A)It increases.
B)It decreases.
C)It decreases to zero.
D)It remains the same.
Question
<strong> If the operating frequency decreases in Figure 10-1, how does the phase angle change?</strong> A)It changes to another quadrant. B)It decreases. C)It increases. D)It remains the same. <div style=padding-top: 35px>
If the operating frequency decreases in Figure 10-1, how does the phase angle change?

A)It changes to another quadrant.
B)It decreases.
C)It increases.
D)It remains the same.
Question
<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258 <div style=padding-top: 35px>
Calculate the total impedance in Figure 10-2.

A) 62<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258 <div style=padding-top: 35px>
B) 880<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258 <div style=padding-top: 35px>
C) 1000<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258 <div style=padding-top: 35px>
D) 258<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258 <div style=padding-top: 35px>
Question
<strong> If the resistor value increases in Figure 10-2, then how does the total current change?</strong> A)It increases. B)It decreases. C)It decreases to zero. D)It remains the same. <div style=padding-top: 35px>
If the resistor value increases in Figure 10-2, then how does the total current change?

A)It increases.
B)It decreases.
C)It decreases to zero.
D)It remains the same.
Question
<strong> Calculate the voltage drop across the capacitor in Figure 10-1.</strong> A)4.82V B)3.69V C)14.4V D)11.5V <div style=padding-top: 35px>
Calculate the voltage drop across the capacitor in Figure 10-1.

A)4.82V
B)3.69V
C)14.4V
D)11.5V
Question
<strong> Calculate the apparent power in Figure 10-1.</strong> A)5.99V B)1.70V C)5.66V D)14.37V <div style=padding-top: 35px>
Calculate the apparent power in Figure 10-1.

A)5.99V
B)1.70V
C)5.66V
D)14.37V
Question
<strong> How much voltage does the capacitor drop in Figure 10-2?</strong> A)20V B)19.94V C)59 mV D)10V <div style=padding-top: 35px>
How much voltage does the capacitor drop in Figure 10-2?

A)20V
B)19.94V
C)59 mV
D)10V
Question
<strong> What change Would increase the power factor in Figure 10-2?</strong> A) Increasing the value of the capacitor B) Increasing the value of the resistor C) Decreasing the value of the capacitor D) Increasing the value of the source voltage <div style=padding-top: 35px>
What change Would increase the power factor in Figure 10-2?

A) Increasing the value of the capacitor
B) Increasing the value of the resistor
C) Decreasing the value of the capacitor
D) Increasing the value of the source voltage
Question
<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3 <div style=padding-top: 35px>
If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?

A) 6.6<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3 <div style=padding-top: 35px>
B) 10 <strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3 <div style=padding-top: 35px>
C) 8.8<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3 <div style=padding-top: 35px>
D) 3.3<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3 <div style=padding-top: 35px>
Question
Power in an RC circuit can be measured as:

A) true power (Ptrue).
B) apparent power (Pa) .
C) reactive power (Pr) .
D) all of these.
Question
A power factor of 1 indicates that the circuit phase angle is

A) 90°
B) 45°
C) 0°
D) 180°
Question
If there is 10 VRMS across the resistor and 10VRMS across the capacitor in a series RC circuit, then the source voltage equals

A) 14.1 VRMS
B) 28.3 VRMS
C) 20 VRMS
D) 10 VRMS
Question
<strong> If the circuit in Figure 10-3 has an output voltage thatʹs too high at the cutoff frequency, ________.</strong> A)the resistor has opened B)the resistor has shorted C)the capacitor has become leaky D)the capacitor has shorted <div style=padding-top: 35px>
If the circuit in Figure 10-3 has an output voltage thatʹs too high at the cutoff frequency, ________.

A)the resistor has opened
B)the resistor has shorted
C)the capacitor has become leaky
D)the capacitor has shorted
Question
<strong> If the output Were taken across the resistor in Figure 10-3, the circuit Would be known as a ________.</strong> A)low-pass filter B)high-pass filter C)band-notch filter D)band-pass filter <div style=padding-top: 35px>
If the output Were taken across the resistor in Figure 10-3, the circuit Would be known as a ________.

A)low-pass filter
B)high-pass filter
C)band-notch filter
D)band-pass filter
Question
If the bandwidth of a low-pass filter is 0 to 1 kHz, the cutoff frequency is ________.

A)500 Hz
B)1 kHz
C)2 kHz
D)0 Hz
Question
<strong> If the resistance is reduced to 4 in Figure 10-3, the cutoff frequency equals</strong> A) 995 Hz B) 480 Hz C) 99 Hz D) 6250 Hz <div style=padding-top: 35px>
If the resistance is reduced to 4 <strong> If the resistance is reduced to 4 in Figure 10-3, the cutoff frequency equals</strong> A) 995 Hz B) 480 Hz C) 99 Hz D) 6250 Hz <div style=padding-top: 35px> in Figure 10-3, the cutoff frequency equals

A) 995 Hz
B) 480 Hz
C) 99 Hz
D) 6250 Hz
Question
In an RC filter circuit, the cutoff frequency is defined as the frequency at Which:

A) the output voltage drops to 70% of maximum.
B) the output voltage is cutoff, with minimum or zero output.
C) the output voltage drops to 66% of maximum.
D) the output voltage drops to 33% of maximum.
Question
<strong> If the resistor is changed to 100 in Figure 10-3 , what is the new cutoff frequency?</strong> A) 159 Hz B) 79.6 Hz C) 39.8 Hz D) 318 Hz <div style=padding-top: 35px>
If the resistor is changed to 100 <strong> If the resistor is changed to 100 in Figure 10-3 , what is the new cutoff frequency?</strong> A) 159 Hz B) 79.6 Hz C) 39.8 Hz D) 318 Hz <div style=padding-top: 35px> in Figure 10-3 , what is the new cutoff frequency?

A) 159 Hz
B) 79.6 Hz
C) 39.8 Hz
D) 318 Hz
Question
<strong> If the input voltage increases to 50 V in Figure 10-3,What is the output voltage at the cutoff frequency?</strong> A)70.7V B)17.7V C)35.4V D)8.84V <div style=padding-top: 35px>
If the input voltage increases to 50 V in Figure 10-3,What is the output voltage at the cutoff frequency?

A)70.7V
B)17.7V
C)35.4V
D)8.84V
Question
An RC high pass filter takes its output across:

A)the parallel resistor.
B)the parallel capacitor.
C)the series resistor.
D)the series capacitor.
Question
<strong> If the resistor changes to 2.2 in Figure 10-3 , the new cut off frequency equals</strong> A) 995 Hz B) 1.18 kHz C) 1.81 kHz D) 1.01 kHz <div style=padding-top: 35px>
If the resistor changes to 2.2 <strong> If the resistor changes to 2.2 in Figure 10-3 , the new cut off frequency equals</strong> A) 995 Hz B) 1.18 kHz C) 1.81 kHz D) 1.01 kHz <div style=padding-top: 35px> in Figure 10-3 , the new cut off frequency equals

A) 995 Hz
B) 1.18 kHz
C) 1.81 kHz
D) 1.01 kHz
Question
If there is 1 ARMS through the resistor and 1 ARMS through the capacitor in a parallel RC circuit, then the total current equals

A) 2.28 ARMS
B) 1.41 ARMS
C) 1 ARMS
D) 2 ARMS
Question
When an AC voltage is supplied to an RC circuit, the AC's current and amplitude will be:

A) varying in the same manner.
B) leading the voltage.
C) similar in waveform.
D) all of these.
Question
An RC lag network is similar to a:

A)stop pass filter.
B)high pass filter.
C)low pass filter.
D)band pass filter.
Question
<strong> What is the circuit fault in Figure 10-3 if the output voltage equals 0 V at the cutoff frequency?</strong> A)The capacitor has become leaky. B)The capacitor has shorted. C)The capacitor has opened. D)The resistor has shorted. <div style=padding-top: 35px>
What is the circuit fault in Figure 10-3 if the output voltage equals 0 V at the cutoff frequency?

A)The capacitor has become leaky.
B)The capacitor has shorted.
C)The capacitor has opened.
D)The resistor has shorted.
Question
<strong> What is the output voltage at the cutoff frequency in Figure 10-3?</strong> A)15.6V B)31.1V C)22V D)6.45V <div style=padding-top: 35px>
What is the output voltage at the cutoff frequency in Figure 10-3?

A)15.6V
B)31.1V
C)22V
D)6.45V
Question
If the true power is 100 W and the reactive power is 100 VAR , the apparent power is

A) 141 W
B) 200 VA
C) 141 VA
D) 100 VA
Question
In an RC circuit, the capacitive reactance is:

A) decreases as the frequency increases.
B) inversely proportional to the frequency.
C) inversely proportional to the capacitance.
D) all of these.
Question
In a series RC circuit, as the phase angle between the applied voltage and the total current increases, this is the same as:

A)apparent power decreasing.
B)power factor increasing.
C)power factor decreasing.
D)true power decreasing.
Question
Simple RC circuits can be viewed asW hat type of filter?

A)active
B)high pass
C)passive
D)low pass
Question
<strong> This frequency response curve in Figure 10-4 representsW hat type of filter?</strong> A)band pass B)band stop C)low pass D)high pass <div style=padding-top: 35px>
This frequency response curve in Figure 10-4 representsW hat type of filter?

A)band pass
B)band stop
C)low pass
D)high pass
Question
Which of these troubleshooting procedures should be performed first?

A)Slap the device firmly to dislodge foreign objects.
B)Take random measurements around point of failure.
C)Analyze the problem and decide Where best to start.
D)Check test equipment connections.
Question
It has been determined that the phase shift of a given parallel RC circuit is lower than predicted. Which of the following most likely has caused this?

A)Resistance has decreased.
B)The function generator frequency control has been accidentally moved to a lower frequency.
C)The capacitance has decreased.
D)could be A or C
Question
The output voltage of an RC high pass filter at a designated frequency is low.What is a possible problem?

A)not enough information
B)function generator misadjusted
C)open resistor
D)shorted capacitor
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Deck 10: Rc Circuits
1
<strong> If the operating frequency increases in Figure 10-1, how does the current change?</strong> A)It decreases. B)It remains the same. C)It decreases to zero. D)It increases.
If the operating frequency increases in Figure 10-1, how does the current change?

A)It decreases.
B)It remains the same.
C)It decreases to zero.
D)It increases.
It increases.
2
The phasor combination of VR and VC in an RC series circuit equals the source voltage.
True
3
An RC circuit can be used as a filter to eliminate selected frequencies
True
4
A high pass filter Will cause some phase shifting of the signal.
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5
The phasor combination of XC and R is called Z .
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6
<strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88
If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?

A) 66<strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88
B) 22 <strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88
C) 44 <strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88
D) 88 <strong> If the frequency equals 60 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 66 B) 22 C) 44 D) 88
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7
<strong> If the operating frequency increases in Figure 10-1, how does the resistor value change?</strong> A)It increases. B)It decreases. C)It opens. D)It remains the same.
If the operating frequency increases in Figure 10-1, how does the resistor value change?

A)It increases.
B)It decreases.
C)It opens.
D)It remains the same.
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8
A VA rating is more relevant When judging the current delivery capacity for a given signal source.
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9
As the frequency applied to an RC circuit increases, the impedance decreases.
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10
The phase angle of an RC circuit varies inverselyW ith frequency.
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11
The total current in an RC circuit always leads the source Voltage.
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12
As the frequency applied to an RC circuit varies, both XC and resistance vary.
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13
The total current in an RC circuit always lags the source Voltage.
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14
<strong> If the operating frequency increases in Figure 10-1, how does the phase angle change?</strong> A)It remains the name. B)It increases. C)It decreases. D)It changes to another quadrant.
If the operating frequency increases in Figure 10-1, how does the phase angle change?

A)It remains the name.
B)It increases.
C)It decreases.
D)It changes to another quadrant.
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15
<strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120
What is the circuit's impedance in Figure 10-1?

A) 520 <strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120
B) 418 <strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120
C) 280<strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120
D) 120 <strong> What is the circuit's impedance in Figure 10-1?</strong> A) 520 B) 418 C) 280 D) 120
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16
When the frequency applied to an RC circuit varies, the value of XC varies.
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17
As the frequency applied to an RC circuit is decreased, the phase angle decreases.
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18
<strong> What is the true power in Figure 10-1?</strong> A)916 mW B)5.73W C)275 mW D)5.73 mW
What is the true power in Figure 10-1?

A)916 mW
B)5.73W
C)275 mW
D)5.73 mW
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19
A leaky capacitor can be equated as a capacitor With a resistor being placed in series With it.
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20
Power factor values close to 0 denotes an RC circuit with mostly true power.
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21
<strong> What is the cutoff frequency in Figure 10-3?</strong> A)995 Hz B)85 Hz C)1012 Hz D)118 Hz
What is the cutoff frequency in Figure 10-3?

A)995 Hz
B)85 Hz
C)1012 Hz
D)118 Hz
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22
<strong> The circuit in Figure 10-3 is known as a ________.</strong> A)high-pass filter B)parallel RC circuit C)low-pass filter D)band-pass filter
The circuit in Figure 10-3 is known as a ________.

A)high-pass filter
B)parallel RC circuit
C)low-pass filter
D)band-pass filter
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23
<strong> If the operating frequency decreases in Figure 10-1, how does the capacitance value change?</strong> A)It decreases to zero. B)It decreases. C)It increases. D)It remains the same.
If the operating frequency decreases in Figure 10-1, how does the capacitance value change?

A)It decreases to zero.
B)It decreases.
C)It increases.
D)It remains the same.
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24
<strong> If the operating frequency decreases in Figure 10-1, how does the resistance value change?</strong> A)It remains the same. B)It opens. C)It increases. D)It decreases.
If the operating frequency decreases in Figure 10-1, how does the resistance value change?

A)It remains the same.
B)It opens.
C)It increases.
D)It decreases.
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25
<strong> How much voltage does the resistor drop in Figure 10-2?</strong> A)19.94V B)10V C)20V D)59 mV
How much voltage does the resistor drop in Figure 10-2?

A)19.94V
B)10V
C)20V
D)59 mV
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26
<strong> What change would decrease the power factor in Figure 10-2 ?</strong> A) increasing the value of the resistor B) decreasing the value of the capacitor C) increasing the value of V<sub>s</sub> D) increasing the value of the capacitor
What change would decrease the power factor in Figure 10-2 ?

A) increasing the value of the resistor
B) decreasing the value of the capacitor
C) increasing the value of Vs
D) increasing the value of the capacitor
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27
<strong> If the frequency decreases in Figure 10-1, the phase angle ________ and the impedance ________.</strong> A)decreases, increases B)decreases, decreases C)increases, increases D)increases, decreases
If the frequency decreases in Figure 10-1, the phase angle ________ and the impedance ________.

A)decreases, increases
B)decreases, decreases
C)increases, increases
D)increases, decreases
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28
<strong> If the frequency increases in Figure 10-1, the phase angle ________ and the impedance ________.</strong> A)decreases, decreases B)decreases, increases C)increases, decreases D)increases, increases
If the frequency increases in Figure 10-1, the phase angle ________ and the impedance ________.

A)decreases, decreases
B)decreases, increases
C)increases, decreases
D)increases, increases
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29
<strong> Which statement describes the relationship of I<sub>C</sub> and I<sub>R</sub> in Figure 10-2?</strong> A) I<sub>C</sub> leads I<sub>R</sub>. B) They are in phase. C) I<sub>C</sub> lags I<sub>R</sub>. D) They are 180° out of phase.
Which statement describes the relationship of IC and IR in Figure 10-2?

A) IC leads IR.
B) They are in phase.
C) IC lags IR.
D) They are 180° out of phase.
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30
<strong> If the resistor changes to 2.2 in Figure 10-1, how does the total current change?</strong> A) It decreases. B) It remains the same. C) It decreases to zero. D) It increases.
If the resistor changes to 2.2 <strong> If the resistor changes to 2.2 in Figure 10-1, how does the total current change?</strong> A) It decreases. B) It remains the same. C) It decreases to zero. D) It increases. in Figure 10-1, how does the total current change?

A) It decreases.
B) It remains the same.
C) It decreases to zero.
D) It increases.
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31
<strong> If the source voltage is changed to 100 V in Figure 10-1, find the true power.</strong> A)22.9 mW B)3.66W C)22.9W D)11W
If the source voltage is changed to 100 V in Figure 10-1, find the true power.

A)22.9 mW
B)3.66W
C)22.9W
D)11W
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32
<strong> If the operating frequency decreases in Figure 10-1, how does the current change?</strong> A)It increases. B)It decreases. C)It decreases to zero. D)It remains the same.
If the operating frequency decreases in Figure 10-1, how does the current change?

A)It increases.
B)It decreases.
C)It decreases to zero.
D)It remains the same.
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33
<strong> If the operating frequency decreases in Figure 10-1, how does the phase angle change?</strong> A)It changes to another quadrant. B)It decreases. C)It increases. D)It remains the same.
If the operating frequency decreases in Figure 10-1, how does the phase angle change?

A)It changes to another quadrant.
B)It decreases.
C)It increases.
D)It remains the same.
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34
<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258
Calculate the total impedance in Figure 10-2.

A) 62<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258
B) 880<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258
C) 1000<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258
D) 258<strong> Calculate the total impedance in Figure 10-2.</strong> A) 62 B) 880 C) 1000 D) 258
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35
<strong> If the resistor value increases in Figure 10-2, then how does the total current change?</strong> A)It increases. B)It decreases. C)It decreases to zero. D)It remains the same.
If the resistor value increases in Figure 10-2, then how does the total current change?

A)It increases.
B)It decreases.
C)It decreases to zero.
D)It remains the same.
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36
<strong> Calculate the voltage drop across the capacitor in Figure 10-1.</strong> A)4.82V B)3.69V C)14.4V D)11.5V
Calculate the voltage drop across the capacitor in Figure 10-1.

A)4.82V
B)3.69V
C)14.4V
D)11.5V
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37
<strong> Calculate the apparent power in Figure 10-1.</strong> A)5.99V B)1.70V C)5.66V D)14.37V
Calculate the apparent power in Figure 10-1.

A)5.99V
B)1.70V
C)5.66V
D)14.37V
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38
<strong> How much voltage does the capacitor drop in Figure 10-2?</strong> A)20V B)19.94V C)59 mV D)10V
How much voltage does the capacitor drop in Figure 10-2?

A)20V
B)19.94V
C)59 mV
D)10V
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39
<strong> What change Would increase the power factor in Figure 10-2?</strong> A) Increasing the value of the capacitor B) Increasing the value of the resistor C) Decreasing the value of the capacitor D) Increasing the value of the source voltage
What change Would increase the power factor in Figure 10-2?

A) Increasing the value of the capacitor
B) Increasing the value of the resistor
C) Decreasing the value of the capacitor
D) Increasing the value of the source voltage
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40
<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3
If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?

A) 6.6<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3
B) 10 <strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3
C) 8.8<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3
D) 3.3<strong> If the frequency is 400 Hz in Figure 10-1 , what is the value of capacitance?</strong> A) 6.6 B) 10 C) 8.8 D) 3.3
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41
Power in an RC circuit can be measured as:

A) true power (Ptrue).
B) apparent power (Pa) .
C) reactive power (Pr) .
D) all of these.
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42
A power factor of 1 indicates that the circuit phase angle is

A) 90°
B) 45°
C) 0°
D) 180°
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43
If there is 10 VRMS across the resistor and 10VRMS across the capacitor in a series RC circuit, then the source voltage equals

A) 14.1 VRMS
B) 28.3 VRMS
C) 20 VRMS
D) 10 VRMS
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44
<strong> If the circuit in Figure 10-3 has an output voltage thatʹs too high at the cutoff frequency, ________.</strong> A)the resistor has opened B)the resistor has shorted C)the capacitor has become leaky D)the capacitor has shorted
If the circuit in Figure 10-3 has an output voltage thatʹs too high at the cutoff frequency, ________.

A)the resistor has opened
B)the resistor has shorted
C)the capacitor has become leaky
D)the capacitor has shorted
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45
<strong> If the output Were taken across the resistor in Figure 10-3, the circuit Would be known as a ________.</strong> A)low-pass filter B)high-pass filter C)band-notch filter D)band-pass filter
If the output Were taken across the resistor in Figure 10-3, the circuit Would be known as a ________.

A)low-pass filter
B)high-pass filter
C)band-notch filter
D)band-pass filter
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46
If the bandwidth of a low-pass filter is 0 to 1 kHz, the cutoff frequency is ________.

A)500 Hz
B)1 kHz
C)2 kHz
D)0 Hz
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47
<strong> If the resistance is reduced to 4 in Figure 10-3, the cutoff frequency equals</strong> A) 995 Hz B) 480 Hz C) 99 Hz D) 6250 Hz
If the resistance is reduced to 4 <strong> If the resistance is reduced to 4 in Figure 10-3, the cutoff frequency equals</strong> A) 995 Hz B) 480 Hz C) 99 Hz D) 6250 Hz in Figure 10-3, the cutoff frequency equals

A) 995 Hz
B) 480 Hz
C) 99 Hz
D) 6250 Hz
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48
In an RC filter circuit, the cutoff frequency is defined as the frequency at Which:

A) the output voltage drops to 70% of maximum.
B) the output voltage is cutoff, with minimum or zero output.
C) the output voltage drops to 66% of maximum.
D) the output voltage drops to 33% of maximum.
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49
<strong> If the resistor is changed to 100 in Figure 10-3 , what is the new cutoff frequency?</strong> A) 159 Hz B) 79.6 Hz C) 39.8 Hz D) 318 Hz
If the resistor is changed to 100 <strong> If the resistor is changed to 100 in Figure 10-3 , what is the new cutoff frequency?</strong> A) 159 Hz B) 79.6 Hz C) 39.8 Hz D) 318 Hz in Figure 10-3 , what is the new cutoff frequency?

A) 159 Hz
B) 79.6 Hz
C) 39.8 Hz
D) 318 Hz
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50
<strong> If the input voltage increases to 50 V in Figure 10-3,What is the output voltage at the cutoff frequency?</strong> A)70.7V B)17.7V C)35.4V D)8.84V
If the input voltage increases to 50 V in Figure 10-3,What is the output voltage at the cutoff frequency?

A)70.7V
B)17.7V
C)35.4V
D)8.84V
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51
An RC high pass filter takes its output across:

A)the parallel resistor.
B)the parallel capacitor.
C)the series resistor.
D)the series capacitor.
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52
<strong> If the resistor changes to 2.2 in Figure 10-3 , the new cut off frequency equals</strong> A) 995 Hz B) 1.18 kHz C) 1.81 kHz D) 1.01 kHz
If the resistor changes to 2.2 <strong> If the resistor changes to 2.2 in Figure 10-3 , the new cut off frequency equals</strong> A) 995 Hz B) 1.18 kHz C) 1.81 kHz D) 1.01 kHz in Figure 10-3 , the new cut off frequency equals

A) 995 Hz
B) 1.18 kHz
C) 1.81 kHz
D) 1.01 kHz
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53
If there is 1 ARMS through the resistor and 1 ARMS through the capacitor in a parallel RC circuit, then the total current equals

A) 2.28 ARMS
B) 1.41 ARMS
C) 1 ARMS
D) 2 ARMS
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54
When an AC voltage is supplied to an RC circuit, the AC's current and amplitude will be:

A) varying in the same manner.
B) leading the voltage.
C) similar in waveform.
D) all of these.
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55
An RC lag network is similar to a:

A)stop pass filter.
B)high pass filter.
C)low pass filter.
D)band pass filter.
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56
<strong> What is the circuit fault in Figure 10-3 if the output voltage equals 0 V at the cutoff frequency?</strong> A)The capacitor has become leaky. B)The capacitor has shorted. C)The capacitor has opened. D)The resistor has shorted.
What is the circuit fault in Figure 10-3 if the output voltage equals 0 V at the cutoff frequency?

A)The capacitor has become leaky.
B)The capacitor has shorted.
C)The capacitor has opened.
D)The resistor has shorted.
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57
<strong> What is the output voltage at the cutoff frequency in Figure 10-3?</strong> A)15.6V B)31.1V C)22V D)6.45V
What is the output voltage at the cutoff frequency in Figure 10-3?

A)15.6V
B)31.1V
C)22V
D)6.45V
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58
If the true power is 100 W and the reactive power is 100 VAR , the apparent power is

A) 141 W
B) 200 VA
C) 141 VA
D) 100 VA
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59
In an RC circuit, the capacitive reactance is:

A) decreases as the frequency increases.
B) inversely proportional to the frequency.
C) inversely proportional to the capacitance.
D) all of these.
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60
In a series RC circuit, as the phase angle between the applied voltage and the total current increases, this is the same as:

A)apparent power decreasing.
B)power factor increasing.
C)power factor decreasing.
D)true power decreasing.
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61
Simple RC circuits can be viewed asW hat type of filter?

A)active
B)high pass
C)passive
D)low pass
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62
<strong> This frequency response curve in Figure 10-4 representsW hat type of filter?</strong> A)band pass B)band stop C)low pass D)high pass
This frequency response curve in Figure 10-4 representsW hat type of filter?

A)band pass
B)band stop
C)low pass
D)high pass
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63
Which of these troubleshooting procedures should be performed first?

A)Slap the device firmly to dislodge foreign objects.
B)Take random measurements around point of failure.
C)Analyze the problem and decide Where best to start.
D)Check test equipment connections.
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64
It has been determined that the phase shift of a given parallel RC circuit is lower than predicted. Which of the following most likely has caused this?

A)Resistance has decreased.
B)The function generator frequency control has been accidentally moved to a lower frequency.
C)The capacitance has decreased.
D)could be A or C
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65
The output voltage of an RC high pass filter at a designated frequency is low.What is a possible problem?

A)not enough information
B)function generator misadjusted
C)open resistor
D)shorted capacitor
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