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Deck 3: Ohms Law

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Question
<strong> Given the circuit in Figure , what is the value of the resistor?</strong> A) 4.78 kΩ B) 121 Ω C) 2.69 kΩ D) 2.69 Ω <div style=padding-top: 35px>
Given the circuit in Figure , what is the value of the resistor?

A) 4.78 kΩ
B) 121 Ω
C) 2.69 kΩ
D) 2.69 Ω
Use Space or
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to flip the card.
Question
Increasing voltage while maintaining the same resistance will cause current to decrease.
Question
Given the circuit in Figure 3-1, how many amps of current flow through the circuit?

A) 8.2 A
B) 1.0 A
C) 0.82 A
D) 1.22 A
Question
<strong> Figure 3-3 Given the circuit in Figure 3-3, how much current flows through the circuit?</strong> A) 3.84 µA B) 3.84 mA C) 0.26 mA D) 3.84 A <div style=padding-top: 35px> Figure 3-3
Given the circuit in Figure 3-3, how much current flows through the circuit?

A) 3.84 µA
B) 3.84 mA
C) 0.26 mA
D) 3.84 A
Question
<strong> If the voltage across a resistor has tripled, the current will:</strong> A) stay the same B) triple C) decrease D) double <div style=padding-top: 35px>
If the voltage across a resistor has tripled, the current will:

A) stay the same
B) triple
C) decrease
D) double
Question
<strong> Figure 3-7 Given the circuit in Figure 3-7, what is the battery voltage?</strong> A) 110 V B) 110 µV C) 22.7 V D) 110 mV <div style=padding-top: 35px> Figure 3-7
Given the circuit in Figure 3-7, what is the battery voltage?

A) 110 V
B) 110 µV
C) 22.7 V
D) 110 mV
Question
A mathematical relationship between current, voltage, and resistance was determined by George Ohm?
Question
<strong> Figure 3-4 To obtain voltage in volts, you must express the value of I in _ _ and the value of R in .</strong> A) Milliamperes, Ohms B) Amperes, Ohms C) Milliamperes, Megohms D) Amperes, Kilo-Ohms <div style=padding-top: 35px> Figure 3-4
To obtain voltage in volts, you must express the value of I in _ _ and the value of R in .

A) Milliamperes, Ohms
B) Amperes, Ohms
C) Milliamperes, Megohms
D) Amperes, Kilo-Ohms
Question
<strong> Figure 3-8 To obtain the resistance in Ohms, you must express the value of I in _ _ and the value of V in .</strong> A) Amperes, Millivolts B) Amperes, Volts C) Milliamperes, Volts D) Microamperes, Millivolts <div style=padding-top: 35px> Figure 3-8
To obtain the resistance in Ohms, you must express the value of I in _ _ and the value of V in .

A) Amperes, Millivolts
B) Amperes, Volts
C) Milliamperes, Volts
D) Microamperes, Millivolts
Question
<strong> Figure 3-4 Given the circuit in Figure 3-4, how much current flows through the circuit?</strong> A) 0.67 mA B) 1.5 A C) 1.5 mA D) 0.69 A <div style=padding-top: 35px> Figure 3-4
Given the circuit in Figure 3-4, how much current flows through the circuit?

A) 0.67 mA
B) 1.5 A
C) 1.5 mA
D) 0.69 A
Question
<strong> Given the circuit in Figure , what resistance is required to draw the specified current?</strong> A) 11.4 Ω B) 5.7 kΩ C) 5.7 Ω D) 25.2 Ω <div style=padding-top: 35px>
Given the circuit in Figure , what resistance is required to draw the specified current?

A) 11.4 Ω
B) 5.7 kΩ
C) 5.7 Ω
D) 25.2 Ω
Question
<strong> Given the circuit in Figure , what is the value of the resistor?</strong> A) 1 MΩ B) 100 kΩ C) 1 Ω D) 1 kΩ <div style=padding-top: 35px>
Given the circuit in Figure , what is the value of the resistor?

A) 1 MΩ
B) 100 kΩ
C) 1 Ω
D) 1 kΩ
Question
<strong> Figure 3-6 Given the circuit in Figure 3-6, What is the voltage across the resistor?</strong> A) 50 mV B) 50 V C) 2.0 mV D) 2.0 V <div style=padding-top: 35px> Figure 3-6
Given the circuit in Figure 3-6, What is the voltage across the resistor?

A) 50 mV
B) 50 V
C) 2.0 mV
D) 2.0 V
Question
<strong> Figure 3-8 Given the circuit in Figure 3-8, what is the voltage across the resistor?</strong> A) 15.5 V B) 1.42 V C) 51.2 V D) 15.5 mV <div style=padding-top: 35px> Figure 3-8
Given the circuit in Figure 3-8, what is the voltage across the resistor?

A) 15.5 V
B) 1.42 V
C) 51.2 V
D) 15.5 mV
Question
<strong> Given the circuit in Figure , what is the value of the resistor?</strong> A) 125 Ω B) 8 MΩ C) 800 kΩ D) 125 kΩ <div style=padding-top: 35px>
Given the circuit in Figure , what is the value of the resistor?

A) 125 Ω
B) 8 MΩ
C) 800 kΩ
D) 125 kΩ
Question
<strong> Figure 3-5 Given the circuit in Figure 3-5, What voltage is required to produce a current of 2.0 Amps?</strong> A) 5.0 V B) 50 V C) 12.5 V D) 1.25 V <div style=padding-top: 35px> Figure 3-5
Given the circuit in Figure 3-5, What voltage is required to produce a current of 2.0 Amps?

A) 5.0 V
B) 50 V
C) 12.5 V
D) 1.25 V
Question
A change in voltage will result in a linearly proportional change in current.
Question
The voltage across a circuit resistance is inversely related to the current through that resistance.
Question
<strong> Figure 3-2 Given the circuit in Figure 3-2, how much current is flowing through the circuit?</strong> A) 3.84 A B) 0.26 mA C) 3.84 µA D) 3.84 mA <div style=padding-top: 35px> Figure 3-2
Given the circuit in Figure 3-2, how much current is flowing through the circuit?

A) 3.84 A
B) 0.26 mA
C) 3.84 µA
D) 3.84 mA
Question
A short could best be described as a unintended path for voltage.
Question
<strong> Given the circuit in Figure what is the value of the resistor?</strong> A) 120 Ω B) 12 kΩ C) 120 kΩ D) 12 Ω <div style=padding-top: 35px>
Given the circuit in Figure what is the value of the resistor?

A) 120 Ω
B) 12 kΩ
C) 120 kΩ
D) 12 Ω
Question
Which of the following is a form of Ohm's Law?

A) V=RIV=\frac{R}{I}

B) I=RVI=\frac{R}{V}

C) I=V×R\mathrm{I}=\mathrm{V} \times \mathrm{R}

D) R=VIR=\frac{V}{I}
Question
A certain resistor has a color code of Red/Red/Red/Gold). If this resistor were connected across the terminals of a 12 volt car battery, what nominal current would flow through the resistor?

A) 5.45 mA
B) 5.74 mA
C) 6.0 mA
D) 5.19 mA
Question
How many ohms of resistance allows a current of 720 µA to flow, when 3.6 kV is applied?

A) 5 MΩ
B) 200 kΩ
C) 5 kΩ
D) 200 nΩ
Question
How much voltage is needed to produce a current of 5 A when total opposition is 50 Ω?

A) 2.5 kV
B) 250 V
C) 25 V
D) 2.5 V
Question
When circuit voltage increases and resistance decreases at the same rate, current will:

A) double
B) increase
C) decrease by half
D) not enough information
Question
The current through a 10 kΩ resistor is 14 µA. What is the voltage drop across the resistor?

A) 14 mV
B) 14 V
C) 140 mV
D) 1.4 V
Question
How much current flows when a 15 ohm resistor is connected across a 5 V source?

A) 3.3 A
B) 3.0 A
C) 0.33 A
D) 0.5 A
Question
If V = 50 V and R = 100 kΩ the current equals .

A) 500 µA
B) 50 mA
C) 0.5 mA
D) both A and C
Question
What electromotive force would cause 20 A of current to flow through a 500 ohm resistor?

A) 10 kV
B) 2.5 V
C) 1 kV
D) 25 V
Question
<strong> Given the circuit in Figure what resistance is required to draw the specified current?</strong> A) 12 kΩ B) 120 Ω C) 120 kΩ D) 11.2 kΩ <div style=padding-top: 35px>
Given the circuit in Figure what resistance is required to draw the specified current?

A) 12 kΩ
B) 120 Ω
C) 120 kΩ
D) 11.2 kΩ
Question
If a variable voltage source is set to 12 volts. To what voltage must it be adjusted to decrease the circuit current by 25%?

A) Increase it to 16 volts
B) Decrease it to 9 volts.
C) Increase it to 20 volts
D) Decrease it to 6 volts.
Question
If the voltage in a circuit has doubled, the current will:

A) decrease
B) stay the same
C) triple
D) double
Question
A battery applies 45 volts to a circuit, while an ammeter reads 10 mA. Later, the ammeter reading drops to 7 mA. Assuming the resistance has not changed, the voltage must have:

A) increased to 58.5 volts
B) decreased to 31.5 volts
C) decreased 30% from its old value
D) both B and C are correct
E) stayed the same
Question
You found a real bargain on a dashboard fan at a flea market. When you got home, you discovered it was a 6 volt fan that would draw 500 mA at 6 V. Your car has a 12 V system. You need a resistor that will drop 6 V at 500 mA. What value resistor do you need?

A) 18 Ω
B) 12 Ω
C) 6.0 Ω
D) 6.2 Ω
Question
How many amperes will flow in a circuit that contains a 110 V source and 20 kΩ of resistance?

A) 5.5 A
B) M55 mA
C) 55 mA
D) 5.5 mA
Question
If an ammeter in a circuit is reading 20 mA and the applied voltage is 25 V, what would the value of the load resistor be?

A) 12.5 kΩ
B) 125 Ω
C) 12.5 Ω
D) 1.25 kΩ
Question
<strong> Figure 3-15 Given the circuit in Figure 3-15, what is the circuit current?</strong> A) 0.001 A B) 0.00001 A C) 0.01 A D) 0.0001 A <div style=padding-top: 35px> Figure 3-15
Given the circuit in Figure 3-15, what is the circuit current?

A) 0.001 A
B) 0.00001 A
C) 0.01 A
D) 0.0001 A
Question
<strong> 6 Figure 3-16 -Given the circuit in Figure 3-16, what is the circuit current?</strong> A) 10 µA B) 1 µA C) 1 mA D) 100 µA <div style=padding-top: 35px>
66
<strong> 6 Figure 3-16 -Given the circuit in Figure 3-16, what is the circuit current?</strong> A) 10 µA B) 1 µA C) 1 mA D) 100 µA <div style=padding-top: 35px> Figure 3-16

-Given the circuit in Figure 3-16, what is the circuit current?

A) 10 µA
B) 1 µA
C) 1 mA
D) 100 µA
Question
How is Ohm's law expressed in words?

A) The current is linearly proportional to the voltage and inversely proportional to the resistance.
B) The voltage is linearly proportional to the current and inversely proportional to the resistance.
C) The voltage is linearly proportional to the resistance and inversely proportional to the current.
D) The current is linearly proportional to the resistance and inversely proportional to the voltage.
Question
If the resistor's voltage is 3 V, with 100 mA flowing through it, what is the resistors value?

A) 0.3 Ω
B) 0.03 Ω
C) 3.0 Ω
D) 30 Ω
Question
What EMF would cause 20 A of current to flow through a 500 Ω resistor?

A) 1 kV
B) 0.04 V
C) 10 kV
D) 2.5 V
Question
Voltage and current are:

A) quantities that subtract
B) inversely proportional
C) directly proportional
D) ideally the same value
Question
88


-If an electric circuit draws 1 A at 50 V, how much current will it draw if the voltage is increased to 75 V?

A) M15 V
B) 15 µA
C) 15 mA
D) 1.5 A
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Deck 3: Ohms Law
1
<strong> Given the circuit in Figure , what is the value of the resistor?</strong> A) 4.78 kΩ B) 121 Ω C) 2.69 kΩ D) 2.69 Ω
Given the circuit in Figure , what is the value of the resistor?

A) 4.78 kΩ
B) 121 Ω
C) 2.69 kΩ
D) 2.69 Ω
2.69 kΩ
2
Increasing voltage while maintaining the same resistance will cause current to decrease.
False
3
Given the circuit in Figure 3-1, how many amps of current flow through the circuit?

A) 8.2 A
B) 1.0 A
C) 0.82 A
D) 1.22 A
1.22 A
4
<strong> Figure 3-3 Given the circuit in Figure 3-3, how much current flows through the circuit?</strong> A) 3.84 µA B) 3.84 mA C) 0.26 mA D) 3.84 A Figure 3-3
Given the circuit in Figure 3-3, how much current flows through the circuit?

A) 3.84 µA
B) 3.84 mA
C) 0.26 mA
D) 3.84 A
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5
<strong> If the voltage across a resistor has tripled, the current will:</strong> A) stay the same B) triple C) decrease D) double
If the voltage across a resistor has tripled, the current will:

A) stay the same
B) triple
C) decrease
D) double
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
6
<strong> Figure 3-7 Given the circuit in Figure 3-7, what is the battery voltage?</strong> A) 110 V B) 110 µV C) 22.7 V D) 110 mV Figure 3-7
Given the circuit in Figure 3-7, what is the battery voltage?

A) 110 V
B) 110 µV
C) 22.7 V
D) 110 mV
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7
A mathematical relationship between current, voltage, and resistance was determined by George Ohm?
Unlock Deck
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k this deck
8
<strong> Figure 3-4 To obtain voltage in volts, you must express the value of I in _ _ and the value of R in .</strong> A) Milliamperes, Ohms B) Amperes, Ohms C) Milliamperes, Megohms D) Amperes, Kilo-Ohms Figure 3-4
To obtain voltage in volts, you must express the value of I in _ _ and the value of R in .

A) Milliamperes, Ohms
B) Amperes, Ohms
C) Milliamperes, Megohms
D) Amperes, Kilo-Ohms
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
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k this deck
9
<strong> Figure 3-8 To obtain the resistance in Ohms, you must express the value of I in _ _ and the value of V in .</strong> A) Amperes, Millivolts B) Amperes, Volts C) Milliamperes, Volts D) Microamperes, Millivolts Figure 3-8
To obtain the resistance in Ohms, you must express the value of I in _ _ and the value of V in .

A) Amperes, Millivolts
B) Amperes, Volts
C) Milliamperes, Volts
D) Microamperes, Millivolts
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10
<strong> Figure 3-4 Given the circuit in Figure 3-4, how much current flows through the circuit?</strong> A) 0.67 mA B) 1.5 A C) 1.5 mA D) 0.69 A Figure 3-4
Given the circuit in Figure 3-4, how much current flows through the circuit?

A) 0.67 mA
B) 1.5 A
C) 1.5 mA
D) 0.69 A
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Unlock for access to all 44 flashcards in this deck.
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11
<strong> Given the circuit in Figure , what resistance is required to draw the specified current?</strong> A) 11.4 Ω B) 5.7 kΩ C) 5.7 Ω D) 25.2 Ω
Given the circuit in Figure , what resistance is required to draw the specified current?

A) 11.4 Ω
B) 5.7 kΩ
C) 5.7 Ω
D) 25.2 Ω
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12
<strong> Given the circuit in Figure , what is the value of the resistor?</strong> A) 1 MΩ B) 100 kΩ C) 1 Ω D) 1 kΩ
Given the circuit in Figure , what is the value of the resistor?

A) 1 MΩ
B) 100 kΩ
C) 1 Ω
D) 1 kΩ
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13
<strong> Figure 3-6 Given the circuit in Figure 3-6, What is the voltage across the resistor?</strong> A) 50 mV B) 50 V C) 2.0 mV D) 2.0 V Figure 3-6
Given the circuit in Figure 3-6, What is the voltage across the resistor?

A) 50 mV
B) 50 V
C) 2.0 mV
D) 2.0 V
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14
<strong> Figure 3-8 Given the circuit in Figure 3-8, what is the voltage across the resistor?</strong> A) 15.5 V B) 1.42 V C) 51.2 V D) 15.5 mV Figure 3-8
Given the circuit in Figure 3-8, what is the voltage across the resistor?

A) 15.5 V
B) 1.42 V
C) 51.2 V
D) 15.5 mV
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15
<strong> Given the circuit in Figure , what is the value of the resistor?</strong> A) 125 Ω B) 8 MΩ C) 800 kΩ D) 125 kΩ
Given the circuit in Figure , what is the value of the resistor?

A) 125 Ω
B) 8 MΩ
C) 800 kΩ
D) 125 kΩ
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16
<strong> Figure 3-5 Given the circuit in Figure 3-5, What voltage is required to produce a current of 2.0 Amps?</strong> A) 5.0 V B) 50 V C) 12.5 V D) 1.25 V Figure 3-5
Given the circuit in Figure 3-5, What voltage is required to produce a current of 2.0 Amps?

A) 5.0 V
B) 50 V
C) 12.5 V
D) 1.25 V
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17
A change in voltage will result in a linearly proportional change in current.
Unlock Deck
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k this deck
18
The voltage across a circuit resistance is inversely related to the current through that resistance.
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k this deck
19
<strong> Figure 3-2 Given the circuit in Figure 3-2, how much current is flowing through the circuit?</strong> A) 3.84 A B) 0.26 mA C) 3.84 µA D) 3.84 mA Figure 3-2
Given the circuit in Figure 3-2, how much current is flowing through the circuit?

A) 3.84 A
B) 0.26 mA
C) 3.84 µA
D) 3.84 mA
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20
A short could best be described as a unintended path for voltage.
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k this deck
21
<strong> Given the circuit in Figure what is the value of the resistor?</strong> A) 120 Ω B) 12 kΩ C) 120 kΩ D) 12 Ω
Given the circuit in Figure what is the value of the resistor?

A) 120 Ω
B) 12 kΩ
C) 120 kΩ
D) 12 Ω
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k this deck
22
Which of the following is a form of Ohm's Law?

A) V=RIV=\frac{R}{I}

B) I=RVI=\frac{R}{V}

C) I=V×R\mathrm{I}=\mathrm{V} \times \mathrm{R}

D) R=VIR=\frac{V}{I}
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23
A certain resistor has a color code of Red/Red/Red/Gold). If this resistor were connected across the terminals of a 12 volt car battery, what nominal current would flow through the resistor?

A) 5.45 mA
B) 5.74 mA
C) 6.0 mA
D) 5.19 mA
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
24
How many ohms of resistance allows a current of 720 µA to flow, when 3.6 kV is applied?

A) 5 MΩ
B) 200 kΩ
C) 5 kΩ
D) 200 nΩ
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k this deck
25
How much voltage is needed to produce a current of 5 A when total opposition is 50 Ω?

A) 2.5 kV
B) 250 V
C) 25 V
D) 2.5 V
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k this deck
26
When circuit voltage increases and resistance decreases at the same rate, current will:

A) double
B) increase
C) decrease by half
D) not enough information
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k this deck
27
The current through a 10 kΩ resistor is 14 µA. What is the voltage drop across the resistor?

A) 14 mV
B) 14 V
C) 140 mV
D) 1.4 V
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28
How much current flows when a 15 ohm resistor is connected across a 5 V source?

A) 3.3 A
B) 3.0 A
C) 0.33 A
D) 0.5 A
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29
If V = 50 V and R = 100 kΩ the current equals .

A) 500 µA
B) 50 mA
C) 0.5 mA
D) both A and C
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30
What electromotive force would cause 20 A of current to flow through a 500 ohm resistor?

A) 10 kV
B) 2.5 V
C) 1 kV
D) 25 V
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k this deck
31
<strong> Given the circuit in Figure what resistance is required to draw the specified current?</strong> A) 12 kΩ B) 120 Ω C) 120 kΩ D) 11.2 kΩ
Given the circuit in Figure what resistance is required to draw the specified current?

A) 12 kΩ
B) 120 Ω
C) 120 kΩ
D) 11.2 kΩ
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32
If a variable voltage source is set to 12 volts. To what voltage must it be adjusted to decrease the circuit current by 25%?

A) Increase it to 16 volts
B) Decrease it to 9 volts.
C) Increase it to 20 volts
D) Decrease it to 6 volts.
Unlock Deck
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Unlock Deck
k this deck
33
If the voltage in a circuit has doubled, the current will:

A) decrease
B) stay the same
C) triple
D) double
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
34
A battery applies 45 volts to a circuit, while an ammeter reads 10 mA. Later, the ammeter reading drops to 7 mA. Assuming the resistance has not changed, the voltage must have:

A) increased to 58.5 volts
B) decreased to 31.5 volts
C) decreased 30% from its old value
D) both B and C are correct
E) stayed the same
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
35
You found a real bargain on a dashboard fan at a flea market. When you got home, you discovered it was a 6 volt fan that would draw 500 mA at 6 V. Your car has a 12 V system. You need a resistor that will drop 6 V at 500 mA. What value resistor do you need?

A) 18 Ω
B) 12 Ω
C) 6.0 Ω
D) 6.2 Ω
Unlock Deck
Unlock for access to all 44 flashcards in this deck.
Unlock Deck
k this deck
36
How many amperes will flow in a circuit that contains a 110 V source and 20 kΩ of resistance?

A) 5.5 A
B) M55 mA
C) 55 mA
D) 5.5 mA
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37
If an ammeter in a circuit is reading 20 mA and the applied voltage is 25 V, what would the value of the load resistor be?

A) 12.5 kΩ
B) 125 Ω
C) 12.5 Ω
D) 1.25 kΩ
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38
<strong> Figure 3-15 Given the circuit in Figure 3-15, what is the circuit current?</strong> A) 0.001 A B) 0.00001 A C) 0.01 A D) 0.0001 A Figure 3-15
Given the circuit in Figure 3-15, what is the circuit current?

A) 0.001 A
B) 0.00001 A
C) 0.01 A
D) 0.0001 A
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39
<strong> 6 Figure 3-16 -Given the circuit in Figure 3-16, what is the circuit current?</strong> A) 10 µA B) 1 µA C) 1 mA D) 100 µA
66
<strong> 6 Figure 3-16 -Given the circuit in Figure 3-16, what is the circuit current?</strong> A) 10 µA B) 1 µA C) 1 mA D) 100 µA Figure 3-16

-Given the circuit in Figure 3-16, what is the circuit current?

A) 10 µA
B) 1 µA
C) 1 mA
D) 100 µA
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40
How is Ohm's law expressed in words?

A) The current is linearly proportional to the voltage and inversely proportional to the resistance.
B) The voltage is linearly proportional to the current and inversely proportional to the resistance.
C) The voltage is linearly proportional to the resistance and inversely proportional to the current.
D) The current is linearly proportional to the resistance and inversely proportional to the voltage.
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41
If the resistor's voltage is 3 V, with 100 mA flowing through it, what is the resistors value?

A) 0.3 Ω
B) 0.03 Ω
C) 3.0 Ω
D) 30 Ω
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42
What EMF would cause 20 A of current to flow through a 500 Ω resistor?

A) 1 kV
B) 0.04 V
C) 10 kV
D) 2.5 V
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43
Voltage and current are:

A) quantities that subtract
B) inversely proportional
C) directly proportional
D) ideally the same value
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44
88


-If an electric circuit draws 1 A at 50 V, how much current will it draw if the voltage is increased to 75 V?

A) M15 V
B) 15 µA
C) 15 mA
D) 1.5 A
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Unlock for access to all 44 flashcards in this deck.
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