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Deck 8: Voltage Dividers and Current Dividers
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Deck 8: Voltage Dividers and Current Dividers
1
Any ______________ circuit is a voltage divider in which the individual resistor voltage drops are proportional to the series resistance values.
series
2
Any ______________ circuit is a current divider in which the individual branch currents are inversely proportional to the branch resistance values.
parallel
3
Series voltage drops are ______________ to the resistances.
proportional
4
In a current divider, each branch current is ______________ proportional to its R.
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5
______________ is equal to 1 divided by R.
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6
The unit for conductance is ______________.
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7
In a ______________ circuit, the IR drops add to equal the applied voltage.
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8
In a voltage divider, all current in the circuit must come from the ______________.
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9
The current through all the resistances in a divider is the ______________ current.
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10
All current in a voltage divider must come from the
A) resistors
B) branch currents
C) loads
D) voltage source
A) resistors
B) branch currents
C) loads
D) voltage source
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11
The bleeder current that flows through an entire divider is generally specified at about
A) 5% of the load current
B) 10% of the load current
C) 20% of the load current
D) 50% of the load current
A) 5% of the load current
B) 10% of the load current
C) 20% of the load current
D) 50% of the load current
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12
A loaded voltage divider is just a practical application of a
A) series circuit
B) parallel circuit
C) series-parallel circuit
D) regulator circuit
A) series circuit
B) parallel circuit
C) series-parallel circuit
D) regulator circuit
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13
Any series circuit in which the individual resistor voltage drops are proportional to the series resistance values is a(n)
A) balanced bridge
B) unbalanced bridge
C) current divider
D) voltage divider
A) balanced bridge
B) unbalanced bridge
C) current divider
D) voltage divider
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14
When parallel-connected loads are added to a series circuit, the circuit becomes a(n)
A) loaded voltage divider
B) balanced bridge
C) unloaded voltage divider
D) parallel resonant circuit
A) loaded voltage divider
B) balanced bridge
C) unloaded voltage divider
D) parallel resonant circuit
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15
In a series circuit, the voltage drops equal
A) the sum of I and R
B) the product of I times R
C) the power divided by voltage
D) the current times the applied voltage
A) the sum of I and R
B) the product of I times R
C) the power divided by voltage
D) the current times the applied voltage
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16
The series string can be considered a
A) bridge
B) parallel circuit
C) current divider
D) voltage divider
A) bridge
B) parallel circuit
C) current divider
D) voltage divider
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17
A very large R in series with a much smaller R has a
A) negligible IR drop
B) considerable IR drop
C) no voltage drop
D) more current flowing through it
A) negligible IR drop
B) considerable IR drop
C) no voltage drop
D) more current flowing through it
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18
In a series voltage divider, the points at which different voltages are available are called
A) nodes
B) joints
C) taps
D) tacks
A) nodes
B) joints
C) taps
D) tacks
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19
In a parallel circuit, currents
A) divide inversely as the branch resistances
B) divide proportionally as the branch currents
C) are always equal in all branches
D) are equal to power divided by R
A) divide inversely as the branch resistances
B) divide proportionally as the branch currents
C) are always equal in all branches
D) are equal to power divided by R
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20
Conductance G is equal to
A) 1/T
B) R times S
C) 1/R
D) I squared R
A) 1/T
B) R times S
C) 1/R
D) I squared R
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21
Conductance and current are
A) inversely proportional
B) directly proportional
C) not related in any way
D) both measured in amperes
A) inversely proportional
B) directly proportional
C) not related in any way
D) both measured in amperes
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22
The unit for G is the
A) ohm
B) joule
C) coulomb
D) siemens
A) ohm
B) joule
C) coulomb
D) siemens
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23
What is the easiest method that can be used to determine current in a parallel circuit with three or more branches?
A) Method of conductances
B) Method of resistances
C) Kirchhoff's law
D) Thevenin's theorem
A) Method of conductances
B) Method of resistances
C) Kirchhoff's law
D) Thevenin's theorem
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24
What circuit is often used to tap off part of the applied voltage for a load that needs less than the applied voltage?
A) Bridge
B) Current divider
C) Voltage divider
D) Rectifier
A) Bridge
B) Current divider
C) Voltage divider
D) Rectifier
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25
In a series circuit, the IR drops
A) add to equal the applied voltage
B) will cancel out
C) all equal zero
D) add to equal twice the applied voltage
A) add to equal the applied voltage
B) will cancel out
C) all equal zero
D) add to equal twice the applied voltage
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26
In a current divider with two branch resistances, the larger R
A) has more current
B) has less current
C) has more voltage
D) has less voltage
A) has more current
B) has less current
C) has more voltage
D) has less voltage
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27
The current divider formula can be used
A) with series circuits
B) for any number of branch resistances
C) only for two branch resistances
D) to solve for applied voltage
A) with series circuits
B) for any number of branch resistances
C) only for two branch resistances
D) to solve for applied voltage
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28
The current divider formula can be used only for ______________ branch resistances.
A) 0
B) 1
C) 2
D) 3
A) 0
B) 1
C) 2
D) 3
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29
Any series circuit is a voltage divider in which the individual resistor voltage drops are proportional to the series resistance values.
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30
Any parallel circuit is a current divider in which the individual branch currents are directly proportional to the branch resistance values.
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31
In a series circuit, the voltage drops equal the product of I times R.
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32
A series string can be considered a voltage divider.
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33
Since series voltage drops are proportional to the resistances, a very small R in series with a much larger R has a considerably large IR drop.
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34
Some voltage dividers are configured with taps that provide different voltages from each tap.
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35
In a two branch, parallel circuit, once one current is calculated, the other can be found by adding the calculated current to the total current (IT).
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36
With parallel branches, a lower resistance takes more branch current, equal to V/R.
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37
The current divider formula can be used only for two branch resistances.
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38
The voltage divider formula can be used for only two series resistances.
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39
Conductance and current are inversely proportional.
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40
The unit for G is the siemens.
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41
To determine the value of current in a parallel circuit, the method of conductances is easier to use than the method of resistances for three or more branches.
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42
A voltage divider is often used to tap off part of the applied voltage VT for a load that needs less voltage than VT.
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43
In a series voltage divider, the IR drops do not add up to equal the applied voltage.
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