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Deck 4: Energy and Power

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Question
Express 0.15 mW as µW.

A) 0.00015 µW
B) 15 µW
C) 1.5 µW
D) 150 µW
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Question
The amount of voltage in a circuit is 50 V, while the current is 0.2 mA. Determine the power.

A) 250 W
B) 0.01 W
C) 2 W
D) 10 W
Question
Power is the rate at which energy is used.
Question
The collision of electrons when passing through resistance results in energy loss given off as:

A) watts
B) light
C) heat
D) voltage
Question
Power is measured in:

A) Amperes
B) Watts
C) Joules
D) Energy
Question
The amount of current in a circuit is 10 mA, while the resistance is 1 kΩ. Determine the power.

A) 0.0001 W
B) 10 W
C) 100 W
D) 0.1 W
Question
How many Watts are used when 6000 Joules of energy are consumed in 5 hours?

A) 6000 W
B) 1200 W
C) 0.33 W
D) 200 W
Question
Which of the following is NOT a correct formula for calculating power?

A) P = V2/R
B) P = IV
C) P = I2R
D) P = VR
Question
Convert 0.072 W to mW.

A) 0.000072 mW
B) 72 mW
C) 7.2 mW
D) 720 mW
Question
Voltage in a circuit is 100 V, the resistance is 10 kΩ. Determine the power.

A) 1 W
B) 0.1 W
C) 10 W
D) 0.01 W
Question
A 1 kW load that operates for 1 hour consumes the same amount of energy as a 100 W load that operates for 10 hours.
Question
The power dissipated by a resistor doubles if the applied voltage doubles.
Question
One Watt equals one Joule per second.
Question
Voltage forces electrical energy through a circuit.
Question
Efficiency is determined by dividing the power output by the power input.
Question
If 50 Joules are used in ten seconds, the power will be 500 Watts.
Question
Power companies charge for energy used on the basis of:

A) Wh
B) kW
C) kWh
D) MWh
Question
The symbol for power is:

A) J
B) P
C) W
D) I
Question
Energy is the ability to do work.
Question
The rate at which work is performed is called power.
Question
A 12 V battery is connected to a 400 Ω load. If it supplied current for 1000 hours, what was its Ah rating?

A) 30 Ah
B) 120 Ah
C) 3 Ah
D) 60 Ah
Question
<strong> Figure 4-1 Given the circuit in Figure 4-1, the power consumed by the lamp is:</strong> A) 220 W B) 14 W C) 144 W D) 100 W <div style=padding-top: 35px> Figure 4-1
Given the circuit in Figure 4-1, the power consumed by the lamp is:

A) 220 W
B) 14 W
C) 144 W
D) 100 W
Question
<strong> Given the circuit in Figure 4-3, which of the following resistor power values would you use in the circuit?</strong> A) 1 W B) 5 W C) 15 W D) 20 W <div style=padding-top: 35px>
Given the circuit in Figure 4-3, which of the following resistor power values would you use in the circuit?

A) 1 W
B) 5 W
C) 15 W
D) 20 W
Question
If one needed a very high power rating, an appropriate choice for the resistor would be:

A) metal-film
B) carbon-composition
C) wire wound
D) carbon-film
Question
How many joules of energy will a 10 W lamp dissipate in one minute?

A) 60 joules
B) 600 joules
C) 10 joules
D) 3600 joules
Question
One kilowatt-hour is equivalent to:

A) 1.0 × 103 joules
B) 3.6 × 105 joules
C) 3.6 × 106 joules
D) 60 × 104 joules
Question
How long would it take for a 60 W lamp to consume 30.24 kilowatt-hours of power?

A) 3 weeks
B) 0.505 hours
C) 3 hours
D) 21 hours
Question
The change in energy from one end of a resistor to another creates:

A) voltage loss
B) voltage gain
C) voltage rise
D) voltage drop
Question
<strong> Given the circuit in Figure , what is the resistance of the lamp?</strong> A) 120 Ω B) 1.2 Ω C) Not enough data to calculate the resistance D) 12 Ω <div style=padding-top: 35px>
Given the circuit in Figure , what is the resistance of the lamp?

A) 120 Ω
B) 1.2 Ω
C) Not enough data to calculate the resistance
D) 12 Ω
Question
What is the total dissipated power from two series-connected 100 W lamps?

A) 10 kW
B) 50 W
C) 100 W
D) 200 W
Question
If a 12 Ω draws 1 A of current, what should be its wattage rating?

A) 1/4 W
B) 1.2 W
C) 3/4 W
D) 12 W
Question
A power supply provides a continuous 200 W to a load, with an efficiency of 80%. In a 24-hour period, how many KWh of energy does it consume?

A) 600 KWh
B) 4.8 KWh
C) 250 KWh
D) 6 KWh
Question
How much power does a 50 V amplifier use when 5 A of current flows through it?

A) 250 mW
B) 10 W
C) 250 W
D) 100 mW
Question
A resistor which has a large physical size means:

A) it can handle less power
B) it can dissipate more heat
C) it contains more carbon
D) it contains more resistance in ohms
Question
50 mA of current flows through a 10 kΩ resistor. How much power is dissipated?

A) 25 mW
B) 5 µW
C) 0.25 µW
D) 25 W
Question
A system with an input power of 50 W and an output of 20 W has an efficiency of:

A) 50%
B) 20%
C) 25%
D) 40%
Question
A 5.1 kΩ resistor has burned out in a circuit. You are to replace it with one of like ohmic value. If the resistor should carry 15 mA, which of the following standard resistors should one use?

A) 5.1 kΩ, 5 W
B) 5.1 kΩ, 1 W
C) 5.1 kΩ, 1/2 W
D) 5.1 kΩ, 2 W
Question
<strong> If you installed a 33 Ω, 1 watt resistor in the circuit in Figure , the resistor will probably:</strong> A) burn up B) work fine C) produce a little heat D) short <div style=padding-top: 35px>
If you installed a 33 Ω, 1 watt resistor in the circuit in Figure , the resistor will probably:

A) burn up
B) work fine
C) produce a little heat
D) short
Question
The maximum amount of power a resistor can safely handle without damage is called:

A) power rating
B) watts
C) heat
D) surface area
Question
<strong> Given the circuit in Figure 4-2, the power delivered to the lamp is:</strong> A) 1.0 W B) 12 W C) 120 W D) 1.2 W <div style=padding-top: 35px>
Given the circuit in Figure 4-2, the power delivered to the lamp is:

A) 1.0 W
B) 12 W
C) 120 W
D) 1.2 W
Question
A voltage drop is:

A) called a difference of potential
B) the comparison of energy lost from one end of a resistance to the other
C) the loss of energy by electrons as they flow through a resistance
D) all of the above
Question
If a lamp transforms 120 joules of energy into light and heat every 2 seconds, how much power does it use?

A) 240 W
B) 480 W
C) 120 W
D) 60 W
Question
For a circuit that contains a 50 V power supply and a 100 Ω resistor, what power rating should be assigned to the resistor?

A) 250 W
B) 25 W
C) 2.5 W
D) 125W
Question
What is the kilowatt-hour consumption of a 40 W lamp if it remains "on" for 1750 hours?

A) 70.00
B) 43.75
C) 43,750
D) 70,000
Question
Which of the following is a correct formula for calculating power?

A) P=V2RP=\frac{V^{2}}{R}

B) P=EVP=E V

C) P=WI\mathrm{P}=\mathrm{WI}

D) P=IR2\mathrm{P}=\mathrm{IR} ^2
Question
The length of time that a battery can deliver a certain amount of average current to a load at the rated voltage is called the:

A) ampere-hour rating
B) current rating
C) minimum power rating
D) voltage rating
Question
The power rating of a resistor is related to .

A) directly, the type of cooling used
B) directly, its surface area
C) indirectly, the type of material used
Question
What value of power is dissipated by a 5 kΩ resistor, when 30 nA flows through it?

A) 6.67 mW
B) 150 W
C) 6 nW
D) 4.5 pW
Question
How much energy does a 6 V battery have when it stores 12 coulombs of charge?

A) 5 joules
B) 2 joules
C) 432 joules
D) 72 joules
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Deck 4: Energy and Power
1
Express 0.15 mW as µW.

A) 0.00015 µW
B) 15 µW
C) 1.5 µW
D) 150 µW
150 µW
2
The amount of voltage in a circuit is 50 V, while the current is 0.2 mA. Determine the power.

A) 250 W
B) 0.01 W
C) 2 W
D) 10 W
0.01 W
3
Power is the rate at which energy is used.
True
4
The collision of electrons when passing through resistance results in energy loss given off as:

A) watts
B) light
C) heat
D) voltage
Unlock Deck
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Unlock Deck
k this deck
5
Power is measured in:

A) Amperes
B) Watts
C) Joules
D) Energy
Unlock Deck
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Unlock Deck
k this deck
6
The amount of current in a circuit is 10 mA, while the resistance is 1 kΩ. Determine the power.

A) 0.0001 W
B) 10 W
C) 100 W
D) 0.1 W
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7
How many Watts are used when 6000 Joules of energy are consumed in 5 hours?

A) 6000 W
B) 1200 W
C) 0.33 W
D) 200 W
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k this deck
8
Which of the following is NOT a correct formula for calculating power?

A) P = V2/R
B) P = IV
C) P = I2R
D) P = VR
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9
Convert 0.072 W to mW.

A) 0.000072 mW
B) 72 mW
C) 7.2 mW
D) 720 mW
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Unlock Deck
k this deck
10
Voltage in a circuit is 100 V, the resistance is 10 kΩ. Determine the power.

A) 1 W
B) 0.1 W
C) 10 W
D) 0.01 W
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11
A 1 kW load that operates for 1 hour consumes the same amount of energy as a 100 W load that operates for 10 hours.
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12
The power dissipated by a resistor doubles if the applied voltage doubles.
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13
One Watt equals one Joule per second.
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14
Voltage forces electrical energy through a circuit.
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15
Efficiency is determined by dividing the power output by the power input.
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16
If 50 Joules are used in ten seconds, the power will be 500 Watts.
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17
Power companies charge for energy used on the basis of:

A) Wh
B) kW
C) kWh
D) MWh
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18
The symbol for power is:

A) J
B) P
C) W
D) I
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19
Energy is the ability to do work.
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20
The rate at which work is performed is called power.
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21
A 12 V battery is connected to a 400 Ω load. If it supplied current for 1000 hours, what was its Ah rating?

A) 30 Ah
B) 120 Ah
C) 3 Ah
D) 60 Ah
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22
<strong> Figure 4-1 Given the circuit in Figure 4-1, the power consumed by the lamp is:</strong> A) 220 W B) 14 W C) 144 W D) 100 W Figure 4-1
Given the circuit in Figure 4-1, the power consumed by the lamp is:

A) 220 W
B) 14 W
C) 144 W
D) 100 W
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23
<strong> Given the circuit in Figure 4-3, which of the following resistor power values would you use in the circuit?</strong> A) 1 W B) 5 W C) 15 W D) 20 W
Given the circuit in Figure 4-3, which of the following resistor power values would you use in the circuit?

A) 1 W
B) 5 W
C) 15 W
D) 20 W
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24
If one needed a very high power rating, an appropriate choice for the resistor would be:

A) metal-film
B) carbon-composition
C) wire wound
D) carbon-film
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
25
How many joules of energy will a 10 W lamp dissipate in one minute?

A) 60 joules
B) 600 joules
C) 10 joules
D) 3600 joules
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Unlock Deck
k this deck
26
One kilowatt-hour is equivalent to:

A) 1.0 × 103 joules
B) 3.6 × 105 joules
C) 3.6 × 106 joules
D) 60 × 104 joules
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27
How long would it take for a 60 W lamp to consume 30.24 kilowatt-hours of power?

A) 3 weeks
B) 0.505 hours
C) 3 hours
D) 21 hours
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Unlock Deck
k this deck
28
The change in energy from one end of a resistor to another creates:

A) voltage loss
B) voltage gain
C) voltage rise
D) voltage drop
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
29
<strong> Given the circuit in Figure , what is the resistance of the lamp?</strong> A) 120 Ω B) 1.2 Ω C) Not enough data to calculate the resistance D) 12 Ω
Given the circuit in Figure , what is the resistance of the lamp?

A) 120 Ω
B) 1.2 Ω
C) Not enough data to calculate the resistance
D) 12 Ω
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30
What is the total dissipated power from two series-connected 100 W lamps?

A) 10 kW
B) 50 W
C) 100 W
D) 200 W
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31
If a 12 Ω draws 1 A of current, what should be its wattage rating?

A) 1/4 W
B) 1.2 W
C) 3/4 W
D) 12 W
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32
A power supply provides a continuous 200 W to a load, with an efficiency of 80%. In a 24-hour period, how many KWh of energy does it consume?

A) 600 KWh
B) 4.8 KWh
C) 250 KWh
D) 6 KWh
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Unlock Deck
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33
How much power does a 50 V amplifier use when 5 A of current flows through it?

A) 250 mW
B) 10 W
C) 250 W
D) 100 mW
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Unlock Deck
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34
A resistor which has a large physical size means:

A) it can handle less power
B) it can dissipate more heat
C) it contains more carbon
D) it contains more resistance in ohms
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Unlock Deck
k this deck
35
50 mA of current flows through a 10 kΩ resistor. How much power is dissipated?

A) 25 mW
B) 5 µW
C) 0.25 µW
D) 25 W
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36
A system with an input power of 50 W and an output of 20 W has an efficiency of:

A) 50%
B) 20%
C) 25%
D) 40%
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Unlock Deck
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37
A 5.1 kΩ resistor has burned out in a circuit. You are to replace it with one of like ohmic value. If the resistor should carry 15 mA, which of the following standard resistors should one use?

A) 5.1 kΩ, 5 W
B) 5.1 kΩ, 1 W
C) 5.1 kΩ, 1/2 W
D) 5.1 kΩ, 2 W
Unlock Deck
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Unlock Deck
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38
<strong> If you installed a 33 Ω, 1 watt resistor in the circuit in Figure , the resistor will probably:</strong> A) burn up B) work fine C) produce a little heat D) short
If you installed a 33 Ω, 1 watt resistor in the circuit in Figure , the resistor will probably:

A) burn up
B) work fine
C) produce a little heat
D) short
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
39
The maximum amount of power a resistor can safely handle without damage is called:

A) power rating
B) watts
C) heat
D) surface area
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
40
<strong> Given the circuit in Figure 4-2, the power delivered to the lamp is:</strong> A) 1.0 W B) 12 W C) 120 W D) 1.2 W
Given the circuit in Figure 4-2, the power delivered to the lamp is:

A) 1.0 W
B) 12 W
C) 120 W
D) 1.2 W
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
41
A voltage drop is:

A) called a difference of potential
B) the comparison of energy lost from one end of a resistance to the other
C) the loss of energy by electrons as they flow through a resistance
D) all of the above
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
42
If a lamp transforms 120 joules of energy into light and heat every 2 seconds, how much power does it use?

A) 240 W
B) 480 W
C) 120 W
D) 60 W
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
43
For a circuit that contains a 50 V power supply and a 100 Ω resistor, what power rating should be assigned to the resistor?

A) 250 W
B) 25 W
C) 2.5 W
D) 125W
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
44
What is the kilowatt-hour consumption of a 40 W lamp if it remains "on" for 1750 hours?

A) 70.00
B) 43.75
C) 43,750
D) 70,000
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
45
Which of the following is a correct formula for calculating power?

A) P=V2RP=\frac{V^{2}}{R}

B) P=EVP=E V

C) P=WI\mathrm{P}=\mathrm{WI}

D) P=IR2\mathrm{P}=\mathrm{IR} ^2
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
46
The length of time that a battery can deliver a certain amount of average current to a load at the rated voltage is called the:

A) ampere-hour rating
B) current rating
C) minimum power rating
D) voltage rating
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
47
The power rating of a resistor is related to .

A) directly, the type of cooling used
B) directly, its surface area
C) indirectly, the type of material used
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
48
What value of power is dissipated by a 5 kΩ resistor, when 30 nA flows through it?

A) 6.67 mW
B) 150 W
C) 6 nW
D) 4.5 pW
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
49
How much energy does a 6 V battery have when it stores 12 coulombs of charge?

A) 5 joules
B) 2 joules
C) 432 joules
D) 72 joules
Unlock Deck
Unlock for access to all 49 flashcards in this deck.
Unlock Deck
k this deck
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Unlock Deck
Unlock for access to all 49 flashcards in this deck.
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