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Deck 3: Ohms Law, Energy, and Power

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Question
<strong> \text { Figure } 3 < 1 -If V=25 V and R=50 \mathrm { k } \Omega in Figure 3-1 , the current equals________</strong> A) 0.5 mA B) 5 mA C) 2 mA D) 50 mA <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=25 V and R=50 kΩ\mathrm { k } \Omega
in Figure 3-1 , the current equals________

A) 0.5 mA
B) 5 mA
C) 2 mA
D) 50 mA
Use Space or
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down arrow
to flip the card.
Question
If a 56 kΩ\mathrm { k } \Omega resistor carries 10mA , it is safe to use a 10W resistor.
Question
According to Ohmʹs Law, if voltageW ere to increaseW hile resistance remained the same, current would

A)remain the same
B)increase
C)noW
Ay to determine
D)decrease
Question
If a circuitʹs resistance increases, its current decreases.
Question
According to Ohmʹs Law, if resistanceW ere to decreaseW hile voltage remained the same, current would

A)increase
B)noW
Ay to determine
C)remain the same
D)decrease
Question
If the voltage applied to a circuit doubles, then power dissipation doubles.
Question
If a circuit's supply voltage is 15 V and its resistance is 4700 If a circuit's supply voltage is 15 V and its resistance is 4700 , its current is 3.19 mA .<div style=padding-top: 35px> , its current is 3.19 mA .
Question
According to Ohmʹs Law, if voltageW ere to decreaseW hile resistance remained the same, current would

A)decrease
B)noW
Ay to determine
C)remain the same
D)increase
Question
Voltage and current are ________.

A)quantities that add
B)unrelated
C)inversely proportional
D)directly proportional
Question
If a circuit's supply voltage is 20 V and its resistance is 3300 If a circuit's supply voltage is 20 V and its resistance is 3300 , its current is 6.06 mA .<div style=padding-top: 35px> , its current is 6.06 mA .
Question
If the current is constant, voltage and resistance are directly proportional.
Question
An electronic power supply with a rated current capacity of 500 mA can adequately illuminate a 10 V @ 5W lamp.
Question
When taking current measurements, it is extremely important not to accidentally place the meter across the voltage source.
Question
Power rating for a resistor is mainly based on the physical size.
Question
If a 47 If a 47 resistor carries 5 mA , it's safe to use a 1 W resistor.<div style=padding-top: 35px> resistor carries 5 mA , it's safe to use a 1 W resistor.
Question
If the voltage across a circuit increases, ________.

A)the resistance increases
B)the resistance decreases
C)the current decreases
D)the current increases
Question
If a circuitʹs resistance decreases, its current also decreases.
Question
If a 1 If a 1 resistor has 32 mA flowing through it, it dissipates 1.024 W .<div style=padding-top: 35px> resistor has 32 mA flowing through it, it dissipates 1.024 W .
Question
If a 2.5 kΩ\mathrm { k } \Omega resistor carries 45 mA , it is dissipating 5.0625 W.
Question
If a 12 If a 12 resistor carries 12 mA, the resistor drops 1V .<div style=padding-top: 35px> resistor carries 12 mA, the resistor drops 1V .
Question
<strong> If the resistor opens in Figure 3-1, the following circuit conditions would exist.</strong> A)resistor would read infinite resistance Ould read infinite resistance B)no power dissipation C)no current flow D)all of the above <div style=padding-top: 35px>
If the resistor opens in Figure 3-1, the following circuit conditions would exist.

A)resistor would read infinite resistance
Ould read infinite resistance
B)no power dissipation
C)no current flow
D)all of the above
Question
<strong> If the voltage is suddenly switched off in Figure 3-1, ________.</strong> A) the current will suddenly drop to 0 A B) the current will first increase and then decrease to 0 A C) the current will gradually decrease to 0 A D) there is no way to predict the current <div style=padding-top: 35px>
If the voltage is suddenly switched off in Figure 3-1, ________.

A) the current will suddenly drop to 0 A
B) the current will first increase and then decrease to 0 A
C) the current will gradually decrease to 0 A
D) there is no way to predict the current
Question
<strong> \text { Figure } 3 < 1 -If V=100 V and I=1 mA in Figure 3-1 , the power dissipated by the resistor equals_____</strong> A) 1 W B) 10 W C) 100 mW D) 10 mW <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=100 V and I=1 mA in Figure 3-1 , the power dissipated by the resistor equals_____

A) 1 W
B) 10 W
C) 100 mW
D) 10 mW
Question
<strong> \text { Figure } 3 < 1 -If V=50 V and R=25 \mathrm { k } \Omega in Figure 3-1 , the current equals_________</strong> A) 2 mA B) 50 mA C) 0.5 mA D) 5 mA <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=50 V and R=25 kΩ\mathrm { k } \Omega
in Figure 3-1 , the current equals_________

A) 2 mA
B) 50 mA
C) 0.5 mA
D) 5 mA
Question
<strong> \text { Figure } 3 < 1 -If V=60 V and R=47 \mathrm { k } \Omega in Figure 3-1 , the current equals______</strong> A) 0.128 mA B) 128 mA C) 1.28 mA D) 12.8 mA <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=60 V and R=47 kΩ\mathrm { k } \Omega in Figure 3-1 , the current equals______

A) 0.128 mA
B) 128 mA
C) 1.28 mA
D) 12.8 mA
Question
<strong> \text { Figure } 3 < 1 -If I=64 mA and R=470 in Figure 3-1 , the voltage equals_________</strong> A) 7.34 V B) 3.01 V C) 30.1 V D) 73.4 V <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If I=64 mA and R=470 <strong> \text { Figure } 3 < 1 -If I=64 mA and R=470 in Figure 3-1 , the voltage equals_________</strong> A) 7.34 V B) 3.01 V C) 30.1 V D) 73.4 V <div style=padding-top: 35px> in Figure 3-1 , the voltage equals_________

A) 7.34 V
B) 3.01 V
C) 30.1 V
D) 73.4 V
Question
<strong> If the resistor opens in Figure 3-1, the ________.</strong> A)resistance decreases B)circuit current drops to 0 A C)power dissipation increases D)sourceVoltage decreases to 0V <div style=padding-top: 35px>
If the resistor opens in Figure 3-1, the ________.

A)resistance decreases
B)circuit current drops to 0 A
C)power dissipation increases
D)sourceVoltage decreases to 0V
Question
<strong> \text { Figure } 3 < 1 -If V=50 V and I=37 mA in Figure 3-1 ,_______is dissipated by the resistor.</strong> A) 1.85 W B) 1.35 W C) 135 m W D) 0.185 m W <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=50 V and I=37 mA in Figure 3-1 ,_______is dissipated by the resistor.

A) 1.85 W
B) 1.35 W
C) 135 m W
D) 0.185 m W
Question
<strong> If a 1/2W resistor is used in the circuit in Figure 3-1, the current value ________.</strong> A)depends upon the circuitʹsVoltage and resistance B)depends upon theVoltage applied C)is over 12 mA D)is less than 12 mA <div style=padding-top: 35px>
If a 1/2W resistor is used in the circuit in Figure 3-1, the current value ________.

A)depends upon the circuitʹsVoltage and resistance
B)depends upon theVoltage applied
C)is over 12 mA
D)is less than 12 mA
Question
<strong> If the voltageW ere suddenly switched on in Figure 3-1, ________.</strong> A) the current would be zero B) the current would gradually decrease and then increase C) the current would flow D) the current would gradually decrease <div style=padding-top: 35px>
If the voltageW ere suddenly switched on in Figure 3-1, ________.

A) the current would be zero
B) the current would gradually decrease and then increase
C) the current would flow
D) the current would gradually decrease
Question
<strong> \text { Figure } 3 < 1 -If V=12 V and a 12 \mathrm { k } \Omega resistor were to open in Figure 3-1 , the current is resistor were to open in Figure 3-1 , the current is_____</strong> A) 0 A B) 10 mA C) 1 mA D) extremely high <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=12 V and a 12 kΩ\mathrm { k } \Omega resistor were to open in Figure 3-1 , the current is resistor were to open in Figure 3-1 , the current is_____

A) 0 A
B) 10 mA
C) 1 mA
D) extremely high
Question
<strong> \text { Figure } 3 < 1 -If I=27 mA and R=4.7 \Omega in Figure 3-1 , the voltage equals______</strong> A) 7.8 V B) 5.74 V C) 174 mV D) 127 mV <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If I=27 mA and R=4.7 Ω\Omega in Figure 3-1 , the voltage equals______

A) 7.8 V
B) 5.74 V
C) 174 mV
D) 127 mV
Question
<strong> \text { Figure } 3 < 1 -If I=32 mA and R=469 m in Figure 3-1 , the voltage equals______</strong> A) 19 V B) 22 V C) 15 V D) 12 V <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If I=32 mA and R=469 m in Figure 3-1 , the voltage equals______

A) 19 V
B) 22 V
C) 15 V
D) 12 V
Question
<strong> If voltage is 12 V and the resistance is color-coded brown-black-orange in Figure 3-1 , what are the minimum and maximum possible currents?</strong> A) I<sub>MINIMUM</sub> =1 mA , I<sub>MAXIMUM</sub> =1.6 mA B) I<sub>MINIMUM</sub> =1.2 mA , I<sub>MAXIMUM</sub> =1.4 mA C) I<sub>MINIMUM</sub> =1 mA , I<sub>MAXIMUM</sub> =1.5 mA D) I<sub>MINIMUM </sub> =0.8 mA , I<sub>MAXIMUM</sub> =1.2 mA <div style=padding-top: 35px>
If voltage is 12 V and the resistance is color-coded brown-black-orange in Figure 3-1 , what are the minimum and maximum possible currents?

A) IMINIMUM =1 mA , IMAXIMUM =1.6 mA
B) IMINIMUM =1.2 mA , IMAXIMUM =1.4 mA
C) IMINIMUM =1 mA , IMAXIMUM =1.5 mA
D) IMINIMUM =0.8 mA , IMAXIMUM =1.2 mA
Question
<strong> \text { Figure } 3 < 1 -If a 10 \mathrm { k } \Omega resistor dissipates 0.5 W in Figure 3-1 , then the supply voltage equals</strong> A) 7.07 mV B) 5000 V C) 70.7 V D) 50 V <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If a 10 kΩ\mathrm { k } \Omega resistor dissipates 0.5 W in Figure 3-1 , then the supply voltage equals

A) 7.07 mV
B) 5000 V
C) 70.7 V
D) 50 V
Question
<strong> \text { Figure } 3 < 1 -If I=64 mA and R=47 in Figure 3-1 , the voltage equals_____</strong> A) 73.4 V B) 3.01 V C) 7.34 V D) 30.1 V <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If I=64 mA and R=47 <strong> \text { Figure } 3 < 1 -If I=64 mA and R=47 in Figure 3-1 , the voltage equals_____</strong> A) 73.4 V B) 3.01 V C) 7.34 V D) 30.1 V <div style=padding-top: 35px> in Figure 3-1 , the voltage equals_____

A) 73.4 V
B) 3.01 V
C) 7.34 V
D) 30.1 V
Question
<strong> \text { Figure } 3 < 1 -If I=45 mA and R=40 \mathrm { k } \Omega in Figure 3-1, the voltage equals_________</strong> A) 1.125 V B) 1800 V C) 1.8 V D) 18 V <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If I=45 mA and R=40 kΩ\mathrm { k } \Omega in Figure 3-1, the voltage equals_________

A) 1.125 V
B) 1800 V
C) 1.8 V
D) 18 V
Question
<strong> If the voltage is 15 V and resistance is color coded red-red-brown-silver in Figure 3-1 , what are the maximum and minimum possible current?</strong> A) I<sub>MINIMUM</sub> =64.9 mA, I<sub>MAXIMUM</sub>=71.8 mA B) I<sub>MINIMUM</sub> =56.8 mA , I<sub>MAXIMUM</sub> =85.2 mA C) I<sub>MINIMUM</sub> =62.0 mA , I<sub>MAXIMUM</sub> =75.8 mA D) none of these <div style=padding-top: 35px>
If the voltage is 15 V and resistance is color coded red-red-brown-silver in Figure 3-1 , what are the maximum and minimum possible current?

A) IMINIMUM =64.9 mA, IMAXIMUM=71.8 mA
B) IMINIMUM =56.8 mA , IMAXIMUM =85.2 mA
C) IMINIMUM =62.0 mA , IMAXIMUM =75.8 mA
D) none of these
Question
<strong> \text { Figure } 3 < 1 -If V=85 V and I=15 mA in Figure 3-1 , the resistance equals________</strong> A) 1.28 \Omega B) 567 \Omega C) 5.67 k \Omega D) 52.3 \Omega <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=85 V and I=15 mA in Figure 3-1 , the resistance equals________

A) 1.28 Ω\Omega
B) 567 Ω\Omega
C) 5.67 kΩk \Omega
D) 52.3 Ω\Omega
Question
<strong> \text { Figure } 3 < 1 -If V=12 V and a 12 \mathrm { k } \Omega resistor shorts in Figure 3-1 , the current is________</strong> A) 0 A B) 10 mA C) 1 mA D) extremely high <div style=padding-top: 35px>
 Figure 3<1\text { Figure } 3 < 1

-If V=12 V and a 12 kΩ\mathrm { k } \Omega resistor shorts in Figure 3-1 , the current is________

A) 0 A
B) 10 mA
C) 1 mA
D) extremely high
Question
What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?

A) 2.14<strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75 <div style=padding-top: 35px>
B) 104<strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75 <div style=padding-top: 35px>
C) 9375<strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75 <div style=padding-top: 35px>
D) 75 <strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75 <div style=padding-top: 35px>
Question
If a resistor that is color-coded red-red-brown-silver is connected to a 15 V source, what is the maximum current that can flow?

A) 75.8 mA
B) 71.9 mA
C) 62 mA
D) 68.2 mA
Question
The symbol for a certain amount of energy used over time is ________.

A)W
B)P
C)V
D)I
Question
A 250 μA current flowing through a 4.7 kΩ resistor produces a ________ voltage drop.

A)18.8V
B)1.18V
C)53.2V
D)1.18 mV
Question
Which is the correct formula for Ohmʹs Law?

A)I =V÷ R
B)P =V× I
C)V = I ÷ R
D)R =V× I
Question
Using Watt's law and substituting power can be calculated as_________

A) P=I2R\mathrm { P } = \mathrm { I } ^2 \mathrm { R }
B) P=V I
C) P=V2/R\mathrm { P } = \mathrm { V }^ 2 / \mathrm { R }
D) all of these
Question
If a 330 Ω\Omega resistor dissipates 2 W , its voltage drop equals_______

A) 660 V
B) 2.57 V
C) 25.7 V
D) 6.6 V
Question
If a resistor is rated at 1/2W , it ________.

A)can only dissipate more than 1/2W Of power
B)always dissipates 1/2W
C)always provides 1/2W Of power
D)can safely dissipate 1/2W Of power
Question
The ampere-hour rating of a battery is defined as the:

A)number of hours per amperes supplied.
B)number of amperes supplied in 1 hour.
C)number of amperes supplied over the number of hours at a given current.
D)all of these.
Question
Which is the correct formula for finding power?

A) <strong>Which is the correct formula for finding power?</strong> A) B) C) D) all of these <div style=padding-top: 35px>
B) <strong>Which is the correct formula for finding power?</strong> A) B) C) D) all of these <div style=padding-top: 35px>
C) <strong>Which is the correct formula for finding power?</strong> A) B) C) D) all of these <div style=padding-top: 35px>
D) all of these
Question
What is the resistance of a 100 W bulb when it is operating in a circuit with a supply of 120 V ?

A) 56 Ω\Omega
B) 560 Ω\Omega
C) 2.14 Ω\Omega
D) 144 Ω\Omega
Question
If the current flow for a given circuit has doubled, then the ________ has been halved.

A)voltage
B)power
C)current
D)resistance
Question
A 220 Ω\Omega 1/2 W resistor has burned open, so you look in your parts box to find a replacement. Which one of the following resistors could you use to repair the circuit?

A) 2200 Ω\Omega 1/2 W
B) 220 Ω\Omega 1/4W
C) 220 Ω\Omega 1 W
D) 220 Ω\Omega 1/8 W
Question
If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?

A) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Power as it is used in electric circuits can be best defined as:

A)the rateVoltage is applied over time.
B)the rate current flows over time.
C)the rate energy is used over time.
D)the rate motion is exerted over time.
Question
If a resistance of 2.2 <strong>If a resistance of 2.2 is connected across a 1 kV source, current equals about_______</strong> A) 0.455 mA B) 2.2 mA C) 0.455 A D) 45.5 \mu \mathrm { A } <div style=padding-top: 35px> is connected across a 1 kV source, current equals about_______

A) 0.455 mA
B) 2.2 mA
C) 0.455 A
D) 45.5 μA\mu \mathrm { A }
Question
If a resistor that is color-coded yellow-violet-brown-gold is connected to a 12 V source, thenW hat is the current flow?

A)255 mA
B)26.9 mA
C)25.5 mA
D)24.3 mA
Question
Resistance and current are ________.

A)similar toVoltage
B)inversely proportional
C)not related
D)directly proportional
Question
A kilowatt-hour is best defined as:

A) a kilo multiplied by 1 watt-hour.
B) 1,000 watts multiplied by 1 hour.
C) a kilo divided by 1 watt-hour.
D) 1,000 watts divided by 1 hour.
Question
Which of the following terms is not a resistor rating?

A)resistorV
Alue in ohms
B)power rating
C)resistor tolerance
D)current
Question
Which is the most unlikely resistor failure?

A)shorting
B)resistance change
C)opening
D)All are common failures.
Question
The voltage of a power supply drops to 0 V when connected to a lamp circuit.What is a possible problem?

A)the lamp is open
B)the lamp is shorted
C)the lamp requires more current than the power supply can deliver
D)both B and C
Question
In the operation of electrical circuits, which, in most cases, is an unwanted by-product?

A)heat
B)mechanical motion
C)light
D)both B and C
Question
Typically,Which is the first type of measurement taken in a known defective circuit?

A)current
B)resistance
C)power
D)voltage
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Deck 3: Ohms Law, Energy, and Power
1
<strong> \text { Figure } 3 < 1 -If V=25 V and R=50 \mathrm { k } \Omega in Figure 3-1 , the current equals________</strong> A) 0.5 mA B) 5 mA C) 2 mA D) 50 mA
 Figure 3<1\text { Figure } 3 < 1

-If V=25 V and R=50 kΩ\mathrm { k } \Omega
in Figure 3-1 , the current equals________

A) 0.5 mA
B) 5 mA
C) 2 mA
D) 50 mA
0.5 mA
2
If a 56 kΩ\mathrm { k } \Omega resistor carries 10mA , it is safe to use a 10W resistor.
True
3
According to Ohmʹs Law, if voltageW ere to increaseW hile resistance remained the same, current would

A)remain the same
B)increase
C)noW
Ay to determine
D)decrease
increase
4
If a circuitʹs resistance increases, its current decreases.
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5
According to Ohmʹs Law, if resistanceW ere to decreaseW hile voltage remained the same, current would

A)increase
B)noW
Ay to determine
C)remain the same
D)decrease
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6
If the voltage applied to a circuit doubles, then power dissipation doubles.
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7
If a circuit's supply voltage is 15 V and its resistance is 4700 If a circuit's supply voltage is 15 V and its resistance is 4700 , its current is 3.19 mA . , its current is 3.19 mA .
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8
According to Ohmʹs Law, if voltageW ere to decreaseW hile resistance remained the same, current would

A)decrease
B)noW
Ay to determine
C)remain the same
D)increase
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9
Voltage and current are ________.

A)quantities that add
B)unrelated
C)inversely proportional
D)directly proportional
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10
If a circuit's supply voltage is 20 V and its resistance is 3300 If a circuit's supply voltage is 20 V and its resistance is 3300 , its current is 6.06 mA . , its current is 6.06 mA .
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11
If the current is constant, voltage and resistance are directly proportional.
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12
An electronic power supply with a rated current capacity of 500 mA can adequately illuminate a 10 V @ 5W lamp.
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13
When taking current measurements, it is extremely important not to accidentally place the meter across the voltage source.
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14
Power rating for a resistor is mainly based on the physical size.
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15
If a 47 If a 47 resistor carries 5 mA , it's safe to use a 1 W resistor. resistor carries 5 mA , it's safe to use a 1 W resistor.
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16
If the voltage across a circuit increases, ________.

A)the resistance increases
B)the resistance decreases
C)the current decreases
D)the current increases
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17
If a circuitʹs resistance decreases, its current also decreases.
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18
If a 1 If a 1 resistor has 32 mA flowing through it, it dissipates 1.024 W . resistor has 32 mA flowing through it, it dissipates 1.024 W .
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19
If a 2.5 kΩ\mathrm { k } \Omega resistor carries 45 mA , it is dissipating 5.0625 W.
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20
If a 12 If a 12 resistor carries 12 mA, the resistor drops 1V . resistor carries 12 mA, the resistor drops 1V .
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21
<strong> If the resistor opens in Figure 3-1, the following circuit conditions would exist.</strong> A)resistor would read infinite resistance Ould read infinite resistance B)no power dissipation C)no current flow D)all of the above
If the resistor opens in Figure 3-1, the following circuit conditions would exist.

A)resistor would read infinite resistance
Ould read infinite resistance
B)no power dissipation
C)no current flow
D)all of the above
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22
<strong> If the voltage is suddenly switched off in Figure 3-1, ________.</strong> A) the current will suddenly drop to 0 A B) the current will first increase and then decrease to 0 A C) the current will gradually decrease to 0 A D) there is no way to predict the current
If the voltage is suddenly switched off in Figure 3-1, ________.

A) the current will suddenly drop to 0 A
B) the current will first increase and then decrease to 0 A
C) the current will gradually decrease to 0 A
D) there is no way to predict the current
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23
<strong> \text { Figure } 3 < 1 -If V=100 V and I=1 mA in Figure 3-1 , the power dissipated by the resistor equals_____</strong> A) 1 W B) 10 W C) 100 mW D) 10 mW
 Figure 3<1\text { Figure } 3 < 1

-If V=100 V and I=1 mA in Figure 3-1 , the power dissipated by the resistor equals_____

A) 1 W
B) 10 W
C) 100 mW
D) 10 mW
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24
<strong> \text { Figure } 3 < 1 -If V=50 V and R=25 \mathrm { k } \Omega in Figure 3-1 , the current equals_________</strong> A) 2 mA B) 50 mA C) 0.5 mA D) 5 mA
 Figure 3<1\text { Figure } 3 < 1

-If V=50 V and R=25 kΩ\mathrm { k } \Omega
in Figure 3-1 , the current equals_________

A) 2 mA
B) 50 mA
C) 0.5 mA
D) 5 mA
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25
<strong> \text { Figure } 3 < 1 -If V=60 V and R=47 \mathrm { k } \Omega in Figure 3-1 , the current equals______</strong> A) 0.128 mA B) 128 mA C) 1.28 mA D) 12.8 mA
 Figure 3<1\text { Figure } 3 < 1

-If V=60 V and R=47 kΩ\mathrm { k } \Omega in Figure 3-1 , the current equals______

A) 0.128 mA
B) 128 mA
C) 1.28 mA
D) 12.8 mA
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26
<strong> \text { Figure } 3 < 1 -If I=64 mA and R=470 in Figure 3-1 , the voltage equals_________</strong> A) 7.34 V B) 3.01 V C) 30.1 V D) 73.4 V
 Figure 3<1\text { Figure } 3 < 1

-If I=64 mA and R=470 <strong> \text { Figure } 3 < 1 -If I=64 mA and R=470 in Figure 3-1 , the voltage equals_________</strong> A) 7.34 V B) 3.01 V C) 30.1 V D) 73.4 V in Figure 3-1 , the voltage equals_________

A) 7.34 V
B) 3.01 V
C) 30.1 V
D) 73.4 V
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27
<strong> If the resistor opens in Figure 3-1, the ________.</strong> A)resistance decreases B)circuit current drops to 0 A C)power dissipation increases D)sourceVoltage decreases to 0V
If the resistor opens in Figure 3-1, the ________.

A)resistance decreases
B)circuit current drops to 0 A
C)power dissipation increases
D)sourceVoltage decreases to 0V
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28
<strong> \text { Figure } 3 < 1 -If V=50 V and I=37 mA in Figure 3-1 ,_______is dissipated by the resistor.</strong> A) 1.85 W B) 1.35 W C) 135 m W D) 0.185 m W
 Figure 3<1\text { Figure } 3 < 1

-If V=50 V and I=37 mA in Figure 3-1 ,_______is dissipated by the resistor.

A) 1.85 W
B) 1.35 W
C) 135 m W
D) 0.185 m W
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29
<strong> If a 1/2W resistor is used in the circuit in Figure 3-1, the current value ________.</strong> A)depends upon the circuitʹsVoltage and resistance B)depends upon theVoltage applied C)is over 12 mA D)is less than 12 mA
If a 1/2W resistor is used in the circuit in Figure 3-1, the current value ________.

A)depends upon the circuitʹsVoltage and resistance
B)depends upon theVoltage applied
C)is over 12 mA
D)is less than 12 mA
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30
<strong> If the voltageW ere suddenly switched on in Figure 3-1, ________.</strong> A) the current would be zero B) the current would gradually decrease and then increase C) the current would flow D) the current would gradually decrease
If the voltageW ere suddenly switched on in Figure 3-1, ________.

A) the current would be zero
B) the current would gradually decrease and then increase
C) the current would flow
D) the current would gradually decrease
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31
<strong> \text { Figure } 3 < 1 -If V=12 V and a 12 \mathrm { k } \Omega resistor were to open in Figure 3-1 , the current is resistor were to open in Figure 3-1 , the current is_____</strong> A) 0 A B) 10 mA C) 1 mA D) extremely high
 Figure 3<1\text { Figure } 3 < 1

-If V=12 V and a 12 kΩ\mathrm { k } \Omega resistor were to open in Figure 3-1 , the current is resistor were to open in Figure 3-1 , the current is_____

A) 0 A
B) 10 mA
C) 1 mA
D) extremely high
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32
<strong> \text { Figure } 3 < 1 -If I=27 mA and R=4.7 \Omega in Figure 3-1 , the voltage equals______</strong> A) 7.8 V B) 5.74 V C) 174 mV D) 127 mV
 Figure 3<1\text { Figure } 3 < 1

-If I=27 mA and R=4.7 Ω\Omega in Figure 3-1 , the voltage equals______

A) 7.8 V
B) 5.74 V
C) 174 mV
D) 127 mV
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33
<strong> \text { Figure } 3 < 1 -If I=32 mA and R=469 m in Figure 3-1 , the voltage equals______</strong> A) 19 V B) 22 V C) 15 V D) 12 V
 Figure 3<1\text { Figure } 3 < 1

-If I=32 mA and R=469 m in Figure 3-1 , the voltage equals______

A) 19 V
B) 22 V
C) 15 V
D) 12 V
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34
<strong> If voltage is 12 V and the resistance is color-coded brown-black-orange in Figure 3-1 , what are the minimum and maximum possible currents?</strong> A) I<sub>MINIMUM</sub> =1 mA , I<sub>MAXIMUM</sub> =1.6 mA B) I<sub>MINIMUM</sub> =1.2 mA , I<sub>MAXIMUM</sub> =1.4 mA C) I<sub>MINIMUM</sub> =1 mA , I<sub>MAXIMUM</sub> =1.5 mA D) I<sub>MINIMUM </sub> =0.8 mA , I<sub>MAXIMUM</sub> =1.2 mA
If voltage is 12 V and the resistance is color-coded brown-black-orange in Figure 3-1 , what are the minimum and maximum possible currents?

A) IMINIMUM =1 mA , IMAXIMUM =1.6 mA
B) IMINIMUM =1.2 mA , IMAXIMUM =1.4 mA
C) IMINIMUM =1 mA , IMAXIMUM =1.5 mA
D) IMINIMUM =0.8 mA , IMAXIMUM =1.2 mA
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35
<strong> \text { Figure } 3 < 1 -If a 10 \mathrm { k } \Omega resistor dissipates 0.5 W in Figure 3-1 , then the supply voltage equals</strong> A) 7.07 mV B) 5000 V C) 70.7 V D) 50 V
 Figure 3<1\text { Figure } 3 < 1

-If a 10 kΩ\mathrm { k } \Omega resistor dissipates 0.5 W in Figure 3-1 , then the supply voltage equals

A) 7.07 mV
B) 5000 V
C) 70.7 V
D) 50 V
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36
<strong> \text { Figure } 3 < 1 -If I=64 mA and R=47 in Figure 3-1 , the voltage equals_____</strong> A) 73.4 V B) 3.01 V C) 7.34 V D) 30.1 V
 Figure 3<1\text { Figure } 3 < 1

-If I=64 mA and R=47 <strong> \text { Figure } 3 < 1 -If I=64 mA and R=47 in Figure 3-1 , the voltage equals_____</strong> A) 73.4 V B) 3.01 V C) 7.34 V D) 30.1 V in Figure 3-1 , the voltage equals_____

A) 73.4 V
B) 3.01 V
C) 7.34 V
D) 30.1 V
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37
<strong> \text { Figure } 3 < 1 -If I=45 mA and R=40 \mathrm { k } \Omega in Figure 3-1, the voltage equals_________</strong> A) 1.125 V B) 1800 V C) 1.8 V D) 18 V
 Figure 3<1\text { Figure } 3 < 1

-If I=45 mA and R=40 kΩ\mathrm { k } \Omega in Figure 3-1, the voltage equals_________

A) 1.125 V
B) 1800 V
C) 1.8 V
D) 18 V
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38
<strong> If the voltage is 15 V and resistance is color coded red-red-brown-silver in Figure 3-1 , what are the maximum and minimum possible current?</strong> A) I<sub>MINIMUM</sub> =64.9 mA, I<sub>MAXIMUM</sub>=71.8 mA B) I<sub>MINIMUM</sub> =56.8 mA , I<sub>MAXIMUM</sub> =85.2 mA C) I<sub>MINIMUM</sub> =62.0 mA , I<sub>MAXIMUM</sub> =75.8 mA D) none of these
If the voltage is 15 V and resistance is color coded red-red-brown-silver in Figure 3-1 , what are the maximum and minimum possible current?

A) IMINIMUM =64.9 mA, IMAXIMUM=71.8 mA
B) IMINIMUM =56.8 mA , IMAXIMUM =85.2 mA
C) IMINIMUM =62.0 mA , IMAXIMUM =75.8 mA
D) none of these
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39
<strong> \text { Figure } 3 < 1 -If V=85 V and I=15 mA in Figure 3-1 , the resistance equals________</strong> A) 1.28 \Omega B) 567 \Omega C) 5.67 k \Omega D) 52.3 \Omega
 Figure 3<1\text { Figure } 3 < 1

-If V=85 V and I=15 mA in Figure 3-1 , the resistance equals________

A) 1.28 Ω\Omega
B) 567 Ω\Omega
C) 5.67 kΩk \Omega
D) 52.3 Ω\Omega
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40
<strong> \text { Figure } 3 < 1 -If V=12 V and a 12 \mathrm { k } \Omega resistor shorts in Figure 3-1 , the current is________</strong> A) 0 A B) 10 mA C) 1 mA D) extremely high
 Figure 3<1\text { Figure } 3 < 1

-If V=12 V and a 12 kΩ\mathrm { k } \Omega resistor shorts in Figure 3-1 , the current is________

A) 0 A
B) 10 mA
C) 1 mA
D) extremely high
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41
What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?

A) 2.14<strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75
B) 104<strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75
C) 9375<strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75
D) 75 <strong>What is the resistance of a 150 W bulb when it is operating in a circuit with a supply of 125 V ?</strong> A) 2.14 B) 104 C) 9375 D) 75
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42
If a resistor that is color-coded red-red-brown-silver is connected to a 15 V source, what is the maximum current that can flow?

A) 75.8 mA
B) 71.9 mA
C) 62 mA
D) 68.2 mA
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43
The symbol for a certain amount of energy used over time is ________.

A)W
B)P
C)V
D)I
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44
A 250 μA current flowing through a 4.7 kΩ resistor produces a ________ voltage drop.

A)18.8V
B)1.18V
C)53.2V
D)1.18 mV
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45
Which is the correct formula for Ohmʹs Law?

A)I =V÷ R
B)P =V× I
C)V = I ÷ R
D)R =V× I
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46
Using Watt's law and substituting power can be calculated as_________

A) P=I2R\mathrm { P } = \mathrm { I } ^2 \mathrm { R }
B) P=V I
C) P=V2/R\mathrm { P } = \mathrm { V }^ 2 / \mathrm { R }
D) all of these
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47
If a 330 Ω\Omega resistor dissipates 2 W , its voltage drop equals_______

A) 660 V
B) 2.57 V
C) 25.7 V
D) 6.6 V
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48
If a resistor is rated at 1/2W , it ________.

A)can only dissipate more than 1/2W Of power
B)always dissipates 1/2W
C)always provides 1/2W Of power
D)can safely dissipate 1/2W Of power
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49
The ampere-hour rating of a battery is defined as the:

A)number of hours per amperes supplied.
B)number of amperes supplied in 1 hour.
C)number of amperes supplied over the number of hours at a given current.
D)all of these.
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50
Which is the correct formula for finding power?

A) <strong>Which is the correct formula for finding power?</strong> A) B) C) D) all of these
B) <strong>Which is the correct formula for finding power?</strong> A) B) C) D) all of these
C) <strong>Which is the correct formula for finding power?</strong> A) B) C) D) all of these
D) all of these
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51
What is the resistance of a 100 W bulb when it is operating in a circuit with a supply of 120 V ?

A) 56 Ω\Omega
B) 560 Ω\Omega
C) 2.14 Ω\Omega
D) 144 Ω\Omega
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52
If the current flow for a given circuit has doubled, then the ________ has been halved.

A)voltage
B)power
C)current
D)resistance
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53
A 220 Ω\Omega 1/2 W resistor has burned open, so you look in your parts box to find a replacement. Which one of the following resistors could you use to repair the circuit?

A) 2200 Ω\Omega 1/2 W
B) 220 Ω\Omega 1/4W
C) 220 Ω\Omega 1 W
D) 220 Ω\Omega 1/8 W
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54
If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?

A) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D)
B) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D)
C) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D)
D) <strong>If a resistor that is color coded yellow-violet-red is placed across a 25 V source voltage, what value resistor and wattage rating could be used?</strong> A) B) C) D)
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55
Power as it is used in electric circuits can be best defined as:

A)the rateVoltage is applied over time.
B)the rate current flows over time.
C)the rate energy is used over time.
D)the rate motion is exerted over time.
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56
If a resistance of 2.2 <strong>If a resistance of 2.2 is connected across a 1 kV source, current equals about_______</strong> A) 0.455 mA B) 2.2 mA C) 0.455 A D) 45.5 \mu \mathrm { A } is connected across a 1 kV source, current equals about_______

A) 0.455 mA
B) 2.2 mA
C) 0.455 A
D) 45.5 μA\mu \mathrm { A }
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57
If a resistor that is color-coded yellow-violet-brown-gold is connected to a 12 V source, thenW hat is the current flow?

A)255 mA
B)26.9 mA
C)25.5 mA
D)24.3 mA
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58
Resistance and current are ________.

A)similar toVoltage
B)inversely proportional
C)not related
D)directly proportional
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59
A kilowatt-hour is best defined as:

A) a kilo multiplied by 1 watt-hour.
B) 1,000 watts multiplied by 1 hour.
C) a kilo divided by 1 watt-hour.
D) 1,000 watts divided by 1 hour.
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60
Which of the following terms is not a resistor rating?

A)resistorV
Alue in ohms
B)power rating
C)resistor tolerance
D)current
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61
Which is the most unlikely resistor failure?

A)shorting
B)resistance change
C)opening
D)All are common failures.
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62
The voltage of a power supply drops to 0 V when connected to a lamp circuit.What is a possible problem?

A)the lamp is open
B)the lamp is shorted
C)the lamp requires more current than the power supply can deliver
D)both B and C
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63
In the operation of electrical circuits, which, in most cases, is an unwanted by-product?

A)heat
B)mechanical motion
C)light
D)both B and C
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64
Typically,Which is the first type of measurement taken in a known defective circuit?

A)current
B)resistance
C)power
D)voltage
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