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Deck 28: Fundamentals of Circuits

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Question
The voltage and power ratings of a particular light bulb,which are its normal operating values,are 110 V and 60 W.Assume the resistance of the filament of the bulb is constant and is independent of operating conditions.If the light bulb is operated at a reduced voltage and the power drawn by the bulb is 36 W,what is the operating voltage of the bulb?

A)66 V
B)72 V
C)78 V
D)85 V
E)90 V
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Question
A certain electric furnace consumes 24 kW when it is connected to a 240-V line.What is the resistance of the furnace?

A)1.0 kΩ
B)10 Ω
C)2.4 Ω
D)0.42 Ω
E)100 Ω
Question
Two light bulbs,B1 and B2,are connected to a battery having appreciable internal resistance as shown in the figure.What happens to the brightness of bulb B1 when we close the switch S? <strong>Two light bulbs,B<sub>1</sub> and B<sub>2</sub>,are connected to a battery having appreciable internal resistance as shown in the figure.What happens to the brightness of bulb B<sub>1</sub> when we close the switch S? </strong> A)The brightness of B<sub>1</sub> increases permanently. B)The brightness of B<sub>1</sub> decreases permanently. C)The brightness of B<sub>1</sub> does not change. D)The brightness of B<sub>1</sub> increases temporarily but gradually decreases back to its original brightness. E)The brightness of B<sub>1</sub> decreases temporarily but gradually increases back to its original brightness. <div style=padding-top: 35px>

A)The brightness of B1 increases permanently.
B)The brightness of B1 decreases permanently.
C)The brightness of B1 does not change.
D)The brightness of B1 increases temporarily but gradually decreases back to its original brightness.
E)The brightness of B1 decreases temporarily but gradually increases back to its original brightness.
Question
A light bulb is connected in the circuit shown in the figure with the switch S open.All the connecting leads have no appreciable resistance and the battery has no internal resistance.When we close the switch,which statements below accurately describe the behavior of the circuit? (There may be more than one correct choice.) <strong>A light bulb is connected in the circuit shown in the figure with the switch S open.All the connecting leads have no appreciable resistance and the battery has no internal resistance.When we close the switch,which statements below accurately describe the behavior of the circuit? (There may be more than one correct choice.) </strong> A)The brightness of the bulb will increase. B)The brightness of the bulb will decrease. C)The brightness of the bulb will not change. D)The potential drop across R<sub>2</sub> will decrease. E)The potential drop across R<sub>2</sub> will not change. <div style=padding-top: 35px>

A)The brightness of the bulb will increase.
B)The brightness of the bulb will decrease.
C)The brightness of the bulb will not change.
D)The potential drop across R2 will decrease.
E)The potential drop across R2 will not change.
Question
The resistivity of gold is 2.44 × 10-8 Ω ∙ m at room temperature.A gold wire that is 1.8 mm in diameter and 11 cm long carries a current of 170 mA.How much power is dissipated in the wire?

A)0.030 mW
B)0.0076 mW
C)0.013 mW
D)0.019 mW
E)0.025 mW
Question
A 400-W computer (including the monitor)is turned on for 8.0 hours per day.If electricity costs 10¢ per kWh,how much does it cost to run the computer annually for a typical 365-day year?

A)$120
B)$1200
C)$15
D)$17
E)$150
Question
The voltage and power ratings of a particular light bulb,which are its normal operating values,are 110 V and 60 W.Assume the resistance of the filament of the bulb is constant and is independent of operating conditions.If the light bulb is operated with a current that is 50% of the current rating of the bulb,what is the actual power drawn by the bulb?

A)10 W
B)15 W
C)20 W
D)25 W
E)30 W
Question
An RC circuit is connected across an ideal DC voltage source through an open switch.The switch is closed at time t = 0 s.Which of the following statements regarding the circuit are correct? (There may be more than one correct choice.)

A)The capacitor charges to its maximum value in one time constant and the current is zero at that time.
B)The potential difference across the resistor and the potential difference across the capacitor are always equal.
C)The potential difference across the resistor is always greater than the potential difference across the capacitor.
D)The potential difference across the capacitor is always greater than the potential difference across the resistor
E)Once the capacitor is essentially fully charged,there is no appreciable current in the circuit.
Question
In the circuit shown in the figure,four identical resistors labeled A to D are connected to a battery as shown.S1 and S2 are switches.Which of the following actions would result in the GREATEST amount of current through resistor A? <strong>In the circuit shown in the figure,four identical resistors labeled A to D are connected to a battery as shown.S<sub>1</sub> and S<sub>2</sub> are switches.Which of the following actions would result in the GREATEST amount of current through resistor A? </strong> A)closing both switches B)closing S<sub>1</sub> only C)closing S<sub>2</sub> only D)leaving both switches open as shown. <div style=padding-top: 35px>

A)closing both switches
B)closing S1 only
C)closing S2 only
D)leaving both switches open as shown.
Question
The power rating of a 400-Ω resistor is 0.800 W.
(a)What is the maximum voltage that can be applied across this resistor without damaging it?
(b)What is the maximum current this resistor can draw without damaging it?
Question
A galvanometer G has an internal resistance rg.A VOLTMETER is constructed by incorporating the galvanometer and an additional resistance Rs.Which one of the figures below is the most appropriate circuit diagram for the voltmeter? <strong>A galvanometer G has an internal resistance r<sub>g</sub>.A VOLTMETER is constructed by incorporating the galvanometer and an additional resistance R<sub>s</sub>.Which one of the figures below is the most appropriate circuit diagram for the voltmeter? </strong> A)1 B)2 C)3 D)4 E)5 <div style=padding-top: 35px>

A)1
B)2
C)3
D)4
E)5
Question
The figure shows three identical lightbulbs connected to a battery having a constant voltage across its terminals.What happens to the brightness of lightbulb 1 when the switch S is closed? <strong>The figure shows three identical lightbulbs connected to a battery having a constant voltage across its terminals.What happens to the brightness of lightbulb 1 when the switch S is closed? </strong> A)The brightness will increase momentarily then return to its previous level. B)The brightness increases permanently. C)The brightness will decrease momentarily then return to its previous level. D)The brightness remains the same as before the switch is closed. E)The brightness decreases permanently. <div style=padding-top: 35px>

A)The brightness will increase momentarily then return to its previous level.
B)The brightness increases permanently.
C)The brightness will decrease momentarily then return to its previous level.
D)The brightness remains the same as before the switch is closed.
E)The brightness decreases permanently.
Question
As more resistors are added in parallel across a constant voltage source,the power supplied by the source

A)increases.
B)decreases.
C)does not change.
Question
A 110-V hair dryer is rated at 1200 W.What current will it draw when operating from a 110-V electrical outlet?

A)90 mA
B)1.0 A
C)5.0 A
D)11 A
E)14 A
Question
A resistor is made out of a long wire having a length L.Each end of the wire is attached to a terminal of a battery providing a constant voltage V0.A current I flows through the wire.If the wire were cut in half,making two wires of length L/2,and both wires were attached to the battery (the end of both wires attached to one terminal,and the other ends attached to the other terminal),what would be the total current flowing through the two wires?

A)4I
B)2I
C)I
D)I/2
E)I/4
Question
A galvanometer G has an internal resistance rg.An AMMETER is constructed by incorporating the galvanometer and an additional resistance Rs.Which one of the figures below is the most appropriate circuit diagram for the ammeter? <strong>A galvanometer G has an internal resistance r<sub>g</sub>.An AMMETER is constructed by incorporating the galvanometer and an additional resistance R<sub>s</sub>.Which one of the figures below is the most appropriate circuit diagram for the ammeter? </strong> A)1 B)2 C)3 D)4 E)5 <div style=padding-top: 35px>

A)1
B)2
C)3
D)4
E)5
Question
A light bulb is connected to a 110-V source.What is the resistance of this bulb if it is a 100-W bulb?

A)100 Ω
B)8.0 mΩ
C)6.0 mΩ
D)120 Ω
E)240 Ω
Question
A light bulb is connected in the circuit shown in the figure with the switch S open and the capacitor uncharged.The battery has no appreciable internal resistance.Which one of the following graphs best describes the brightness B of the bulb as a function of time t after closing the switch? <strong>A light bulb is connected in the circuit shown in the figure with the switch S open and the capacitor uncharged.The battery has no appreciable internal resistance.Which one of the following graphs best describes the brightness B of the bulb as a function of time t after closing the switch? </strong> A)1 B)2 C)3 D)4 E)5 <div style=padding-top: 35px> <strong>A light bulb is connected in the circuit shown in the figure with the switch S open and the capacitor uncharged.The battery has no appreciable internal resistance.Which one of the following graphs best describes the brightness B of the bulb as a function of time t after closing the switch? </strong> A)1 B)2 C)3 D)4 E)5 <div style=padding-top: 35px>

A)1
B)2
C)3
D)4
E)5
Question
In the circuit shown in the figure,all the lightbulbs are identical.Which of the following is the correct ranking of the brightness of the bulbs? <strong>In the circuit shown in the figure,all the lightbulbs are identical.Which of the following is the correct ranking of the brightness of the bulbs? </strong> A)B and C have equal brightness,and A is the dimmest. B)A and B have equal brightness,and C is the dimmest. C)A is brightest,C is dimmest,and B is in between. D)A is the brightest,and B and C have equal brightness but less than A. E)All three bulbs have the same brightness. <div style=padding-top: 35px>

A)B and C have equal brightness,and A is the dimmest.
B)A and B have equal brightness,and C is the dimmest.
C)A is brightest,C is dimmest,and B is in between.
D)A is the brightest,and B and C have equal brightness but less than A.
E)All three bulbs have the same brightness.
Question
A 1500-W heater is connected to a 120-V line.How much heat energy does it produce in 2.0 hours?

A)1.5 kJ
B)3.0 kJ
C)0.18 MJ
D)11 MJ
E)18 MJ
Question
For the circuit shown in the figure,determine the current in
(a)the 1.0-Ω resistor.
(b)the 3.0-Ω resistor.
(c)the 4.0-Ω resistor. For the circuit shown in the figure,determine the current in (a)the 1.0-Ω resistor. (b)the 3.0-Ω resistor. (c)the 4.0-Ω resistor. <div style=padding-top: 35px>
Question
For the circuit shown in the figure,the current in the 8-Ω resistor is 0.50 A,and all quantities are accurate to 2 significant figures.What is the current in the 2-Ω resistor? <strong>For the circuit shown in the figure,the current in the 8-Ω resistor is 0.50 A,and all quantities are accurate to 2 significant figures.What is the current in the 2-Ω resistor? </strong> A)2.25 A B)0.75 A C)4.5 A D)9.5 A E)6.4 A <div style=padding-top: 35px>

A)2.25 A
B)0.75 A
C)4.5 A
D)9.5 A
E)6.4 A
Question
Thirteen resistors are connected across points A and B as shown in the figure.If all the resistors are accurate to 2 significant figures,what is the equivalent resistance between points A and B? <strong>Thirteen resistors are connected across points A and B as shown in the figure.If all the resistors are accurate to 2 significant figures,what is the equivalent resistance between points A and B? </strong> A)4.0 Ω B)6.0 Ω C)8.0 Ω D)10 Ω E)12 Ω <div style=padding-top: 35px>

A)4.0 Ω
B)6.0 Ω
C)8.0 Ω
D)10 Ω
E)12 Ω
Question
The emf and the internal resistance of a battery are shown in the figure.If a current of 7.8 A is established through the battery from b to a,what is the terminal voltage Vab of the battery? <strong>The emf and the internal resistance of a battery are shown in the figure.If a current of 7.8 A is established through the battery from b to a,what is the terminal voltage V<sub>ab</sub> of the battery? </strong> A)-30 V B)80 V C)30 V D)-80 V E)zero <div style=padding-top: 35px>

A)-30 V
B)80 V
C)30 V
D)-80 V
E)zero
Question
In the circuit shown in the figure,an ideal ohmmeter is connected across ab with the switch S open.All the connecting leads have negligible resistance.The reading of the ohmmeter will be closest to <strong>In the circuit shown in the figure,an ideal ohmmeter is connected across ab with the switch S open.All the connecting leads have negligible resistance.The reading of the ohmmeter will be closest to </strong> A)7.5 Ω. B)10 Ω. C)30 Ω. D)40 Ω. E)60 Ω. <div style=padding-top: 35px>

A)7.5 Ω.
B)10 Ω.
C)30 Ω.
D)40 Ω.
E)60 Ω.
Question
Two unknown resistors are connected together.When they are connected in series their equivalent resistance is 15 Ω.When they are connected in parallel,their equivalent resistance is 3.3 Ω.What are the resistances of these resistors?
Question
The heater element of a particular 120-V toaster is a 8.9-m length of nichrome wire,whose diameter is 0.86 mm.The resistivity of nichrome at the operating temperature of the toaster is 1.3 × 10-6 Ω ∙ m.If the toaster is operated at a voltage of 120 V,how much power does it draw?

A)720 W
B)700 W
C)750 W
D)770 W
E)800 W
Question
In the figure a current of 6.0 A is drawn from the battery.What is the terminal voltage Vab of the battery? <strong>In the figure a current of 6.0 A is drawn from the battery.What is the terminal voltage V<sub>ab</sub> of the battery? </strong> A)0.00 V B)+12 V C)+24 V D)-12 V E)-24 V <div style=padding-top: 35px>

A)0.00 V
B)+12 V
C)+24 V
D)-12 V
E)-24 V
Question
The emf and the internal resistance of a battery are as shown in the figure.If a current of 8.3 A is drawn from the battery when a resistor R is connected across the terminals ab of the battery,what is the power dissipated by the resistor R? <strong>The emf and the internal resistance of a battery are as shown in the figure.If a current of 8.3 A is drawn from the battery when a resistor R is connected across the terminals ab of the battery,what is the power dissipated by the resistor R? </strong> A)440 W B)700 W C)620 W D)530 W E)790 W <div style=padding-top: 35px>

A)440 W
B)700 W
C)620 W
D)530 W
E)790 W
Question
A 4.00-Ω resistor,an 8.00-Ω resistor,and a 24.0-Ω resistor are connected together.
(a)What is the maximum resistance that can be produced using all three resistors?
(b)What is the minimum resistance that can be produced using all three resistors?
(c)How would you connect these three resistors to obtain a resistance of 10.0 Ω?
(d)How would you connect these three resistors to obtain a resistance of 8.00 Ω?
Question
For the circuit shown in the figure,all quantities are accurate to 3 significant figures.What is the power dissipated in the 2-Ω resistor? <strong>For the circuit shown in the figure,all quantities are accurate to 3 significant figures.What is the power dissipated in the 2-Ω resistor? </strong> A)5.33 W B)8.0 W C)6.67 W D)2.67 W E)3.56 W <div style=padding-top: 35px>

A)5.33 W
B)8.0 W
C)6.67 W
D)2.67 W
E)3.56 W
Question
Three resistors having resistances of 4.0 Ω,6.0 Ω,and 10.0 Ω are connected in parallel.If the combination is connected in series with an ideal 12-V battery and a 2.0-Ω resistor,what is the current through the 10.0-Ω resistor?

A)0.59 A
B)2.7 A
C)6.4 A
D)11.2 A
E)16 A
Question
When four identical resistors are connected to an ideal battery of voltage V = 10 V as shown in the figure,the current I is equal to 0.20 A.What is the value of the resistance R of the resistors? <strong>When four identical resistors are connected to an ideal battery of voltage V = 10 V as shown in the figure,the current I is equal to 0.20 A.What is the value of the resistance R of the resistors? </strong> A)20 Ω B)40 Ω C)30 Ω D)50 Ω E)10 Ω <div style=padding-top: 35px>

A)20 Ω
B)40 Ω
C)30 Ω
D)50 Ω
E)10 Ω
Question
Three resistors are connected across an ideal 2.0-V DC battery as shown in the figure.
(a)At what rate does the battery supply energy to the resistors?
(b)At what rate is heat produced in the 6.0-Ω resistor? Three resistors are connected across an ideal 2.0-V DC battery as shown in the figure. (a)At what rate does the battery supply energy to the resistors? (b)At what rate is heat produced in the 6.0-Ω resistor? <div style=padding-top: 35px>
Question
Four resistors are connected across an 8-V DC battery as shown in the figure.The current through the 9-Ω resistor is closest to <strong>Four resistors are connected across an 8-V DC battery as shown in the figure.The current through the 9-Ω resistor is closest to </strong> A)1 A. B)0.7 A. C)0.5 A. D)0.9 A. E)2 A. <div style=padding-top: 35px>

A)1 A.
B)0.7 A.
C)0.5 A.
D)0.9 A.
E)2 A.
Question
In the figure,when the terminal voltage Vab of the battery is equal to 20 V,how much current passes through the battery,including its direction? <strong>In the figure,when the terminal voltage V<sub>ab</sub> of the battery is equal to 20 V,how much current passes through the battery,including its direction? </strong> A)4 A,from a to b B)5 A,from a to b C)6 A,from a to b D)4 A,from b to a E)5 A,from b to a <div style=padding-top: 35px>

A)4 A,from a to b
B)5 A,from a to b
C)6 A,from a to b
D)4 A,from b to a
E)5 A,from b to a
Question
For the circuit shown in the figure,I = 0.50 A and R = 12 Ω.What is the value of the emf ε? <strong>For the circuit shown in the figure,I = 0.50 A and R = 12 Ω.What is the value of the emf ε? </strong> A)18 V B)24 V C)6.0 V D)12 V E)48 V <div style=padding-top: 35px>

A)18 V
B)24 V
C)6.0 V
D)12 V
E)48 V
Question
Two identical resistors of resistance R = 24 Ω and a variable resistor Rx are connected to an ideal battery of voltage V as shown in the figure.What should be the value of the variable resistance Rx to make the voltage across the two parallel resistors equal to <strong>Two identical resistors of resistance R = 24 Ω and a variable resistor R<sub>x</sub> are connected to an ideal battery of voltage V as shown in the figure.What should be the value of the variable resistance R<sub>x</sub> to make the voltage across the two parallel resistors equal to . </strong> A)4.0 Ω B)24 Ω C)8.0 Ω D)16 Ω E)40 Ω <div style=padding-top: 35px> . <strong>Two identical resistors of resistance R = 24 Ω and a variable resistor R<sub>x</sub> are connected to an ideal battery of voltage V as shown in the figure.What should be the value of the variable resistance R<sub>x</sub> to make the voltage across the two parallel resistors equal to . </strong> A)4.0 Ω B)24 Ω C)8.0 Ω D)16 Ω E)40 Ω <div style=padding-top: 35px>

A)4.0 Ω
B)24 Ω
C)8.0 Ω
D)16 Ω
E)40 Ω
Question
The emf and the internal resistance of a battery are as shown in the figure.When the terminal voltage Vab is equal to 17.4 V,what is the current through the battery,including its direction? <strong>The emf and the internal resistance of a battery are as shown in the figure.When the terminal voltage V<sub>ab</sub> is equal to 17.4 V,what is the current through the battery,including its direction? </strong> A)6.8 A,from b to a B)8.7 A,from b to a C)6.8 A,from a to b D)8.7 A,from a to b E)16 A,from b to a <div style=padding-top: 35px>

A)6.8 A,from b to a
B)8.7 A,from b to a
C)6.8 A,from a to b
D)8.7 A,from a to b
E)16 A,from b to a
Question
A 5.0-Ω resistor and a 9.0-Ω resistor are connected in parallel.A 4.0-Ω resistor is then connected in series with this parallel combination.An ideal 6.0-V battery is then connected across the series-parallel combination of the three resistors.What is the current through
(a)the 4.0-Ω resistor?
(b)the 5.0-Ω resistor?
(c)the 9.0-Ω resistor?
Question
For the circuit shown in the figure,what is the current through resistor R3? <strong>For the circuit shown in the figure,what is the current through resistor R<sub>3</sub>? </strong> A)0.043 A B)1.5 A C)0.028 A D)0.086 A <div style=padding-top: 35px>

A)0.043 A
B)1.5 A
C)0.028 A
D)0.086 A
Question
What is the maximum current that can be drawn from a 1.50-V battery with an internal resistance of 0.30 ohm?

A)2.5 A
B)5.0 A
C)0.45 A
D)0.20 A
E)4.5 A
Question
When a 100-Ω resistor is connected across the terminals of a battery of emf ε and internal resistance r,the battery delivers 0.794 W of power to the 100-Ω resistor.When the 100-Ω resistor is replaced by a 200-Ω resistor,the battery delivers 0.401 W of power to the 200-Ω resistor.What are the emf and internal resistance of the battery?

A)ε = 10.0 V,r = 5.02 Ω
B)ε = 4.50 V,r = 4.00 Ω
C)ε = 9.00 V,r = 2.04 Ω
D)ε = 9.00 V,r = 1.01 Ω
E)ε = 12.0 V,r = 6.00 Ω
Question
A galvanometer has a coil with a resistance of 24.0 Ω,and a current of 180 μA causes it to deflect full scale.If this galvanometer is to be used to construct an ammeter that can read up to 10.0 A,what shunt resistor is required?

A)123 µΩ
B)234 µΩ
C)342 µΩ
D)432 µΩ
E)423 µΩ
Question
A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.The current I2 is closest to <strong>A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.The current I<sub>2</sub> is closest to </strong> A)-6 A. B)6 A. C)8 A. D)-8 A. E)zero. <div style=padding-top: 35px>

A)-6 A.
B)6 A.
C)8 A.
D)-8 A.
E)zero.
Question
For the circuit shown in the figure,what current does the ideal ammeter read? <strong>For the circuit shown in the figure,what current does the ideal ammeter read? </strong> A)0.033 A B)0.078 A C)0.23 A D)0.12 A <div style=padding-top: 35px>

A)0.033 A
B)0.078 A
C)0.23 A
D)0.12 A
Question
A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I1 is closest to <strong>A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I<sub>1</sub> is closest to </strong> A)zero. B)+0.2 A. C)+0.4 A. D)-0.2 A. E)-0.4 A. <div style=padding-top: 35px>

A)zero.
B)+0.2 A.
C)+0.4 A.
D)-0.2 A.
E)-0.4 A.
Question
A galvanometer coil having a resistance of 20 Ω and a full-scale deflection at 1.0 mA is connected in series with a 4980 Ω resistance to build a voltmeter.What is the maximum voltage that this voltmeter can read?

A)3.0 V
B)1.0 V
C)50 V
D)5.0 V
E)10 V
Question
When a 20.0-ohm resistor is connected across the terminals of a 12.0-V battery,the voltage across the terminals of the battery falls by 0.300 V.What is the internal resistance of this battery?

A)3.60 Ω
B)1.56 Ω
C)0.98 Ω
D)0.30 Ω
E)0.51 Ω
Question
In the circuit shown in the figure,two 360.0-Ω resistors are connected in series with an ideal source of emf.A voltmeter with internal resistance of 6350 Ω is connected across one of the resistors and reads 3.23 V.Find the emf of the source. In the circuit shown in the figure,two 360.0-Ω resistors are connected in series with an ideal source of emf.A voltmeter with internal resistance of 6350 Ω is connected across one of the resistors and reads 3.23 V.Find the emf of the source. <div style=padding-top: 35px>
Question
A galvanometer has an internal resistance of 100 Ω and deflects full-scale at a current of 2.00 mA.What size resistor should be added to it to convert it to a millivoltmeter capable of reading up to 400 mV,and how should this resistor be connected to the galvanometer?

A)50.0 Ω in series with the galvanometer
B)50.0 Ω in parallel with the galvanometer
C)75.0 Ω in parallel with the galvanometer
D)100 Ω in series with the galvanometer
E)100 Ω in parallel with the galvanometer
Question
A galvanometer has an internal resistance of 100 Ω and deflects full-scale at 2.00 mA.What size resistor should be added to the galvanometer to convert it to a milliammeter capable of reading up to 4.00 mA,and how should this resistor be connected to the galvanometer?

A)50.0 Ω in series with the galvanometer
B)50.0 Ω in parallel with the galvanometer
C)75.0 Ω in parallel with the galvanometer
D)100 Ω in series with the galvanometer
E)100 Ω in parallel with the galvanometer
Question
A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I2 is closest to <strong>A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I<sub>2</sub> is closest to </strong> A)+0.1 A. B)+0.3 A. C)+0.5 A. D)-0.1 A. E)-0.3 A. <div style=padding-top: 35px>

A)+0.1 A.
B)+0.3 A.
C)+0.5 A.
D)-0.1 A.
E)-0.3 A.
Question
A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The emf ε is closest to <strong>A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The emf ε is closest to </strong> A)+3 V. B)+19 V. C)-3 V. D)-10 V. E)-1 V. <div style=padding-top: 35px>

A)+3 V.
B)+19 V.
C)-3 V.
D)-10 V.
E)-1 V.
Question
For the circuit shown in the figure,all quantities are accurate to 2 significant figures.What is the value of the current I1? <strong>For the circuit shown in the figure,all quantities are accurate to 2 significant figures.What is the value of the current I<sub>1</sub>? </strong> A)0.32 A B)0.11 A C)0.29 A D)0.61 A E)0.89 A <div style=padding-top: 35px>

A)0.32 A
B)0.11 A
C)0.29 A
D)0.61 A
E)0.89 A
Question
A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.Compared to the polarity shown in the figure,the emf ε1 is closest to <strong>A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.Compared to the polarity shown in the figure,the emf ε<sub>1 </sub>is closest to </strong> A)-5 V. B)5 V. C)45 V. D)51 V. E)-51 V. <div style=padding-top: 35px>

A)-5 V.
B)5 V.
C)45 V.
D)51 V.
E)-51 V.
Question
Consider the circuit shown in the figure.Note that two currents are shown.Calculate the emfs ε1 and ε3. Consider the circuit shown in the figure.Note that two currents are shown.Calculate the emfs ε<sub>1</sub> and ε<sub>3</sub>. <div style=padding-top: 35px>
Question
For the circuit shown in the figure,what is the current through resistor R1? <strong>For the circuit shown in the figure,what is the current through resistor R<sub>1</sub>? </strong> A)0.071 A B)0.13 A C)0.029 A D)0.016 A <div style=padding-top: 35px>

A)0.071 A
B)0.13 A
C)0.029 A
D)0.016 A
Question
For the circuit shown in the figure,determine the current in
(a)the 7.0-Ω resistor.
(b)the 8.0-Ω resistor.
(c)the 4.0-Ω resistor. For the circuit shown in the figure,determine the current in (a)the 7.0-Ω resistor. (b)the 8.0-Ω resistor. (c)the 4.0-Ω resistor. <div style=padding-top: 35px>
Question
A galvanometer with a resistance of 40.0 Ω deflects full scale at a current of 2.0 mA.What resistance should be used with this galvanometer in order to construct a voltmeter that can read a maximum of 50 V?

A)25 kΩ
B)27 kΩ
C)29 kΩ
D)31 kΩ
E)35 kΩ
Question
A 6.0-μF capacitor is connected in series with a 5.0 MΩ resistor,and this combination is connected across an ideal 15-V DC battery.What is the current in the circuit when the capacitor has reached 20% of its maximum charge?

A)6.5 μA
B)2.4 μA
C)1.3 μA
D)4.7 μA
E)9.1 μA
Question
For the circuit shown in the figure,the switch S is initially open and the capacitor is uncharged.The switch is then closed at time t = 0.How many seconds after closing the switch will the energy stored in the capacitor be equal to 50.2 mJ? <strong>For the circuit shown in the figure,the switch S is initially open and the capacitor is uncharged.The switch is then closed at time t = 0.How many seconds after closing the switch will the energy stored in the capacitor be equal to 50.2 mJ? </strong> A)81 s B)65 s C)97 s D)110 s E)130 s <div style=padding-top: 35px>

A)81 s
B)65 s
C)97 s
D)110 s
E)130 s
Question
A 4.0-mF capacitor is discharged through a 4.0-kΩ resistor.How long will it take for the capacitor to lose half its initial stored energy?

A)9.2 s
B)2.7 s
C)10.2 s
D)5.5 s
E)1.6 s
Question
A 4.0-μF capacitor that is initially uncharged is connected in series with a 4.0-kΩ resistor and an ideal 17.0-V battery.How much energy is stored in the capacitor 17 ms after the battery has been connected?

A)250,000 nJ
B)15,000 kJ
C)25 µJ
D)890 nJ
Question
An uncharged 1.0-μF capacitor is connected in series with a <strong>An uncharged 1.0-μF capacitor is connected in series with a resistor,an ideal battery,and an open switch.What is the voltage across the capacitor after closing the switch?</strong> A)2.7 V B)1.6 V C)2.6 V D)0.62 V <div style=padding-top: 35px> resistor,an ideal <strong>An uncharged 1.0-μF capacitor is connected in series with a resistor,an ideal battery,and an open switch.What is the voltage across the capacitor after closing the switch?</strong> A)2.7 V B)1.6 V C)2.6 V D)0.62 V <div style=padding-top: 35px> battery,and an open switch.What is the voltage across the capacitor <strong>An uncharged 1.0-μF capacitor is connected in series with a resistor,an ideal battery,and an open switch.What is the voltage across the capacitor after closing the switch?</strong> A)2.7 V B)1.6 V C)2.6 V D)0.62 V <div style=padding-top: 35px> after closing the switch?

A)2.7 V
B)1.6 V
C)2.6 V
D)0.62 V
Question
An uncharged 30.0-µF capacitor is connected in series with a 25.0-Ω resistor,a DC battery,and an open switch.The battery has an internal resistance of 10.0 Ω and the open-circuit voltage across its terminals is 50.0 V.The leads have no appreciable resistance.At time t = 0,the switch is suddenly closed.
(a)What is the maximum current through the 25.0-Ω resistor and when does it occur (immediately after closing the switch or after the switch has been closed for a long time)?
(b)What is the maximum charge that the capacitor receives?
(c)When the current in the circuit is 0.850 A,how much charge is on the plates of the capacitor?
Question
For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.How long after closing the switch will the current in the resistor be 7.0 µA? <strong>For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.How long after closing the switch will the current in the resistor be 7.0 µA? </strong> A)87 s B)95 s C)78 s D)69 s E)61 s <div style=padding-top: 35px>

A)87 s
B)95 s
C)78 s
D)69 s
E)61 s
Question
For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.What is the charge on the capacitor when the current in the circuit is 33 μA? <strong>For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.What is the charge on the capacitor when the current in the circuit is 33 μA? </strong> A)1100 µC B)1000 µC C)960 µC D)890 µC E)830 µC <div style=padding-top: 35px>

A)1100 µC
B)1000 µC
C)960 µC
D)890 µC
E)830 µC
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Deck 28: Fundamentals of Circuits
1
The voltage and power ratings of a particular light bulb,which are its normal operating values,are 110 V and 60 W.Assume the resistance of the filament of the bulb is constant and is independent of operating conditions.If the light bulb is operated at a reduced voltage and the power drawn by the bulb is 36 W,what is the operating voltage of the bulb?

A)66 V
B)72 V
C)78 V
D)85 V
E)90 V
85 V
2
A certain electric furnace consumes 24 kW when it is connected to a 240-V line.What is the resistance of the furnace?

A)1.0 kΩ
B)10 Ω
C)2.4 Ω
D)0.42 Ω
E)100 Ω
2.4 Ω
3
Two light bulbs,B1 and B2,are connected to a battery having appreciable internal resistance as shown in the figure.What happens to the brightness of bulb B1 when we close the switch S? <strong>Two light bulbs,B<sub>1</sub> and B<sub>2</sub>,are connected to a battery having appreciable internal resistance as shown in the figure.What happens to the brightness of bulb B<sub>1</sub> when we close the switch S? </strong> A)The brightness of B<sub>1</sub> increases permanently. B)The brightness of B<sub>1</sub> decreases permanently. C)The brightness of B<sub>1</sub> does not change. D)The brightness of B<sub>1</sub> increases temporarily but gradually decreases back to its original brightness. E)The brightness of B<sub>1</sub> decreases temporarily but gradually increases back to its original brightness.

A)The brightness of B1 increases permanently.
B)The brightness of B1 decreases permanently.
C)The brightness of B1 does not change.
D)The brightness of B1 increases temporarily but gradually decreases back to its original brightness.
E)The brightness of B1 decreases temporarily but gradually increases back to its original brightness.
The brightness of B1 decreases permanently.
4
A light bulb is connected in the circuit shown in the figure with the switch S open.All the connecting leads have no appreciable resistance and the battery has no internal resistance.When we close the switch,which statements below accurately describe the behavior of the circuit? (There may be more than one correct choice.) <strong>A light bulb is connected in the circuit shown in the figure with the switch S open.All the connecting leads have no appreciable resistance and the battery has no internal resistance.When we close the switch,which statements below accurately describe the behavior of the circuit? (There may be more than one correct choice.) </strong> A)The brightness of the bulb will increase. B)The brightness of the bulb will decrease. C)The brightness of the bulb will not change. D)The potential drop across R<sub>2</sub> will decrease. E)The potential drop across R<sub>2</sub> will not change.

A)The brightness of the bulb will increase.
B)The brightness of the bulb will decrease.
C)The brightness of the bulb will not change.
D)The potential drop across R2 will decrease.
E)The potential drop across R2 will not change.
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5
The resistivity of gold is 2.44 × 10-8 Ω ∙ m at room temperature.A gold wire that is 1.8 mm in diameter and 11 cm long carries a current of 170 mA.How much power is dissipated in the wire?

A)0.030 mW
B)0.0076 mW
C)0.013 mW
D)0.019 mW
E)0.025 mW
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6
A 400-W computer (including the monitor)is turned on for 8.0 hours per day.If electricity costs 10¢ per kWh,how much does it cost to run the computer annually for a typical 365-day year?

A)$120
B)$1200
C)$15
D)$17
E)$150
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7
The voltage and power ratings of a particular light bulb,which are its normal operating values,are 110 V and 60 W.Assume the resistance of the filament of the bulb is constant and is independent of operating conditions.If the light bulb is operated with a current that is 50% of the current rating of the bulb,what is the actual power drawn by the bulb?

A)10 W
B)15 W
C)20 W
D)25 W
E)30 W
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8
An RC circuit is connected across an ideal DC voltage source through an open switch.The switch is closed at time t = 0 s.Which of the following statements regarding the circuit are correct? (There may be more than one correct choice.)

A)The capacitor charges to its maximum value in one time constant and the current is zero at that time.
B)The potential difference across the resistor and the potential difference across the capacitor are always equal.
C)The potential difference across the resistor is always greater than the potential difference across the capacitor.
D)The potential difference across the capacitor is always greater than the potential difference across the resistor
E)Once the capacitor is essentially fully charged,there is no appreciable current in the circuit.
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9
In the circuit shown in the figure,four identical resistors labeled A to D are connected to a battery as shown.S1 and S2 are switches.Which of the following actions would result in the GREATEST amount of current through resistor A? <strong>In the circuit shown in the figure,four identical resistors labeled A to D are connected to a battery as shown.S<sub>1</sub> and S<sub>2</sub> are switches.Which of the following actions would result in the GREATEST amount of current through resistor A? </strong> A)closing both switches B)closing S<sub>1</sub> only C)closing S<sub>2</sub> only D)leaving both switches open as shown.

A)closing both switches
B)closing S1 only
C)closing S2 only
D)leaving both switches open as shown.
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10
The power rating of a 400-Ω resistor is 0.800 W.
(a)What is the maximum voltage that can be applied across this resistor without damaging it?
(b)What is the maximum current this resistor can draw without damaging it?
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11
A galvanometer G has an internal resistance rg.A VOLTMETER is constructed by incorporating the galvanometer and an additional resistance Rs.Which one of the figures below is the most appropriate circuit diagram for the voltmeter? <strong>A galvanometer G has an internal resistance r<sub>g</sub>.A VOLTMETER is constructed by incorporating the galvanometer and an additional resistance R<sub>s</sub>.Which one of the figures below is the most appropriate circuit diagram for the voltmeter? </strong> A)1 B)2 C)3 D)4 E)5

A)1
B)2
C)3
D)4
E)5
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12
The figure shows three identical lightbulbs connected to a battery having a constant voltage across its terminals.What happens to the brightness of lightbulb 1 when the switch S is closed? <strong>The figure shows three identical lightbulbs connected to a battery having a constant voltage across its terminals.What happens to the brightness of lightbulb 1 when the switch S is closed? </strong> A)The brightness will increase momentarily then return to its previous level. B)The brightness increases permanently. C)The brightness will decrease momentarily then return to its previous level. D)The brightness remains the same as before the switch is closed. E)The brightness decreases permanently.

A)The brightness will increase momentarily then return to its previous level.
B)The brightness increases permanently.
C)The brightness will decrease momentarily then return to its previous level.
D)The brightness remains the same as before the switch is closed.
E)The brightness decreases permanently.
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13
As more resistors are added in parallel across a constant voltage source,the power supplied by the source

A)increases.
B)decreases.
C)does not change.
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14
A 110-V hair dryer is rated at 1200 W.What current will it draw when operating from a 110-V electrical outlet?

A)90 mA
B)1.0 A
C)5.0 A
D)11 A
E)14 A
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15
A resistor is made out of a long wire having a length L.Each end of the wire is attached to a terminal of a battery providing a constant voltage V0.A current I flows through the wire.If the wire were cut in half,making two wires of length L/2,and both wires were attached to the battery (the end of both wires attached to one terminal,and the other ends attached to the other terminal),what would be the total current flowing through the two wires?

A)4I
B)2I
C)I
D)I/2
E)I/4
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16
A galvanometer G has an internal resistance rg.An AMMETER is constructed by incorporating the galvanometer and an additional resistance Rs.Which one of the figures below is the most appropriate circuit diagram for the ammeter? <strong>A galvanometer G has an internal resistance r<sub>g</sub>.An AMMETER is constructed by incorporating the galvanometer and an additional resistance R<sub>s</sub>.Which one of the figures below is the most appropriate circuit diagram for the ammeter? </strong> A)1 B)2 C)3 D)4 E)5

A)1
B)2
C)3
D)4
E)5
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17
A light bulb is connected to a 110-V source.What is the resistance of this bulb if it is a 100-W bulb?

A)100 Ω
B)8.0 mΩ
C)6.0 mΩ
D)120 Ω
E)240 Ω
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18
A light bulb is connected in the circuit shown in the figure with the switch S open and the capacitor uncharged.The battery has no appreciable internal resistance.Which one of the following graphs best describes the brightness B of the bulb as a function of time t after closing the switch? <strong>A light bulb is connected in the circuit shown in the figure with the switch S open and the capacitor uncharged.The battery has no appreciable internal resistance.Which one of the following graphs best describes the brightness B of the bulb as a function of time t after closing the switch? </strong> A)1 B)2 C)3 D)4 E)5 <strong>A light bulb is connected in the circuit shown in the figure with the switch S open and the capacitor uncharged.The battery has no appreciable internal resistance.Which one of the following graphs best describes the brightness B of the bulb as a function of time t after closing the switch? </strong> A)1 B)2 C)3 D)4 E)5

A)1
B)2
C)3
D)4
E)5
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19
In the circuit shown in the figure,all the lightbulbs are identical.Which of the following is the correct ranking of the brightness of the bulbs? <strong>In the circuit shown in the figure,all the lightbulbs are identical.Which of the following is the correct ranking of the brightness of the bulbs? </strong> A)B and C have equal brightness,and A is the dimmest. B)A and B have equal brightness,and C is the dimmest. C)A is brightest,C is dimmest,and B is in between. D)A is the brightest,and B and C have equal brightness but less than A. E)All three bulbs have the same brightness.

A)B and C have equal brightness,and A is the dimmest.
B)A and B have equal brightness,and C is the dimmest.
C)A is brightest,C is dimmest,and B is in between.
D)A is the brightest,and B and C have equal brightness but less than A.
E)All three bulbs have the same brightness.
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20
A 1500-W heater is connected to a 120-V line.How much heat energy does it produce in 2.0 hours?

A)1.5 kJ
B)3.0 kJ
C)0.18 MJ
D)11 MJ
E)18 MJ
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21
For the circuit shown in the figure,determine the current in
(a)the 1.0-Ω resistor.
(b)the 3.0-Ω resistor.
(c)the 4.0-Ω resistor. For the circuit shown in the figure,determine the current in (a)the 1.0-Ω resistor. (b)the 3.0-Ω resistor. (c)the 4.0-Ω resistor.
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22
For the circuit shown in the figure,the current in the 8-Ω resistor is 0.50 A,and all quantities are accurate to 2 significant figures.What is the current in the 2-Ω resistor? <strong>For the circuit shown in the figure,the current in the 8-Ω resistor is 0.50 A,and all quantities are accurate to 2 significant figures.What is the current in the 2-Ω resistor? </strong> A)2.25 A B)0.75 A C)4.5 A D)9.5 A E)6.4 A

A)2.25 A
B)0.75 A
C)4.5 A
D)9.5 A
E)6.4 A
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23
Thirteen resistors are connected across points A and B as shown in the figure.If all the resistors are accurate to 2 significant figures,what is the equivalent resistance between points A and B? <strong>Thirteen resistors are connected across points A and B as shown in the figure.If all the resistors are accurate to 2 significant figures,what is the equivalent resistance between points A and B? </strong> A)4.0 Ω B)6.0 Ω C)8.0 Ω D)10 Ω E)12 Ω

A)4.0 Ω
B)6.0 Ω
C)8.0 Ω
D)10 Ω
E)12 Ω
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24
The emf and the internal resistance of a battery are shown in the figure.If a current of 7.8 A is established through the battery from b to a,what is the terminal voltage Vab of the battery? <strong>The emf and the internal resistance of a battery are shown in the figure.If a current of 7.8 A is established through the battery from b to a,what is the terminal voltage V<sub>ab</sub> of the battery? </strong> A)-30 V B)80 V C)30 V D)-80 V E)zero

A)-30 V
B)80 V
C)30 V
D)-80 V
E)zero
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25
In the circuit shown in the figure,an ideal ohmmeter is connected across ab with the switch S open.All the connecting leads have negligible resistance.The reading of the ohmmeter will be closest to <strong>In the circuit shown in the figure,an ideal ohmmeter is connected across ab with the switch S open.All the connecting leads have negligible resistance.The reading of the ohmmeter will be closest to </strong> A)7.5 Ω. B)10 Ω. C)30 Ω. D)40 Ω. E)60 Ω.

A)7.5 Ω.
B)10 Ω.
C)30 Ω.
D)40 Ω.
E)60 Ω.
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26
Two unknown resistors are connected together.When they are connected in series their equivalent resistance is 15 Ω.When they are connected in parallel,their equivalent resistance is 3.3 Ω.What are the resistances of these resistors?
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27
The heater element of a particular 120-V toaster is a 8.9-m length of nichrome wire,whose diameter is 0.86 mm.The resistivity of nichrome at the operating temperature of the toaster is 1.3 × 10-6 Ω ∙ m.If the toaster is operated at a voltage of 120 V,how much power does it draw?

A)720 W
B)700 W
C)750 W
D)770 W
E)800 W
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28
In the figure a current of 6.0 A is drawn from the battery.What is the terminal voltage Vab of the battery? <strong>In the figure a current of 6.0 A is drawn from the battery.What is the terminal voltage V<sub>ab</sub> of the battery? </strong> A)0.00 V B)+12 V C)+24 V D)-12 V E)-24 V

A)0.00 V
B)+12 V
C)+24 V
D)-12 V
E)-24 V
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29
The emf and the internal resistance of a battery are as shown in the figure.If a current of 8.3 A is drawn from the battery when a resistor R is connected across the terminals ab of the battery,what is the power dissipated by the resistor R? <strong>The emf and the internal resistance of a battery are as shown in the figure.If a current of 8.3 A is drawn from the battery when a resistor R is connected across the terminals ab of the battery,what is the power dissipated by the resistor R? </strong> A)440 W B)700 W C)620 W D)530 W E)790 W

A)440 W
B)700 W
C)620 W
D)530 W
E)790 W
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30
A 4.00-Ω resistor,an 8.00-Ω resistor,and a 24.0-Ω resistor are connected together.
(a)What is the maximum resistance that can be produced using all three resistors?
(b)What is the minimum resistance that can be produced using all three resistors?
(c)How would you connect these three resistors to obtain a resistance of 10.0 Ω?
(d)How would you connect these three resistors to obtain a resistance of 8.00 Ω?
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31
For the circuit shown in the figure,all quantities are accurate to 3 significant figures.What is the power dissipated in the 2-Ω resistor? <strong>For the circuit shown in the figure,all quantities are accurate to 3 significant figures.What is the power dissipated in the 2-Ω resistor? </strong> A)5.33 W B)8.0 W C)6.67 W D)2.67 W E)3.56 W

A)5.33 W
B)8.0 W
C)6.67 W
D)2.67 W
E)3.56 W
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32
Three resistors having resistances of 4.0 Ω,6.0 Ω,and 10.0 Ω are connected in parallel.If the combination is connected in series with an ideal 12-V battery and a 2.0-Ω resistor,what is the current through the 10.0-Ω resistor?

A)0.59 A
B)2.7 A
C)6.4 A
D)11.2 A
E)16 A
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33
When four identical resistors are connected to an ideal battery of voltage V = 10 V as shown in the figure,the current I is equal to 0.20 A.What is the value of the resistance R of the resistors? <strong>When four identical resistors are connected to an ideal battery of voltage V = 10 V as shown in the figure,the current I is equal to 0.20 A.What is the value of the resistance R of the resistors? </strong> A)20 Ω B)40 Ω C)30 Ω D)50 Ω E)10 Ω

A)20 Ω
B)40 Ω
C)30 Ω
D)50 Ω
E)10 Ω
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34
Three resistors are connected across an ideal 2.0-V DC battery as shown in the figure.
(a)At what rate does the battery supply energy to the resistors?
(b)At what rate is heat produced in the 6.0-Ω resistor? Three resistors are connected across an ideal 2.0-V DC battery as shown in the figure. (a)At what rate does the battery supply energy to the resistors? (b)At what rate is heat produced in the 6.0-Ω resistor?
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35
Four resistors are connected across an 8-V DC battery as shown in the figure.The current through the 9-Ω resistor is closest to <strong>Four resistors are connected across an 8-V DC battery as shown in the figure.The current through the 9-Ω resistor is closest to </strong> A)1 A. B)0.7 A. C)0.5 A. D)0.9 A. E)2 A.

A)1 A.
B)0.7 A.
C)0.5 A.
D)0.9 A.
E)2 A.
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36
In the figure,when the terminal voltage Vab of the battery is equal to 20 V,how much current passes through the battery,including its direction? <strong>In the figure,when the terminal voltage V<sub>ab</sub> of the battery is equal to 20 V,how much current passes through the battery,including its direction? </strong> A)4 A,from a to b B)5 A,from a to b C)6 A,from a to b D)4 A,from b to a E)5 A,from b to a

A)4 A,from a to b
B)5 A,from a to b
C)6 A,from a to b
D)4 A,from b to a
E)5 A,from b to a
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37
For the circuit shown in the figure,I = 0.50 A and R = 12 Ω.What is the value of the emf ε? <strong>For the circuit shown in the figure,I = 0.50 A and R = 12 Ω.What is the value of the emf ε? </strong> A)18 V B)24 V C)6.0 V D)12 V E)48 V

A)18 V
B)24 V
C)6.0 V
D)12 V
E)48 V
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38
Two identical resistors of resistance R = 24 Ω and a variable resistor Rx are connected to an ideal battery of voltage V as shown in the figure.What should be the value of the variable resistance Rx to make the voltage across the two parallel resistors equal to <strong>Two identical resistors of resistance R = 24 Ω and a variable resistor R<sub>x</sub> are connected to an ideal battery of voltage V as shown in the figure.What should be the value of the variable resistance R<sub>x</sub> to make the voltage across the two parallel resistors equal to . </strong> A)4.0 Ω B)24 Ω C)8.0 Ω D)16 Ω E)40 Ω . <strong>Two identical resistors of resistance R = 24 Ω and a variable resistor R<sub>x</sub> are connected to an ideal battery of voltage V as shown in the figure.What should be the value of the variable resistance R<sub>x</sub> to make the voltage across the two parallel resistors equal to . </strong> A)4.0 Ω B)24 Ω C)8.0 Ω D)16 Ω E)40 Ω

A)4.0 Ω
B)24 Ω
C)8.0 Ω
D)16 Ω
E)40 Ω
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39
The emf and the internal resistance of a battery are as shown in the figure.When the terminal voltage Vab is equal to 17.4 V,what is the current through the battery,including its direction? <strong>The emf and the internal resistance of a battery are as shown in the figure.When the terminal voltage V<sub>ab</sub> is equal to 17.4 V,what is the current through the battery,including its direction? </strong> A)6.8 A,from b to a B)8.7 A,from b to a C)6.8 A,from a to b D)8.7 A,from a to b E)16 A,from b to a

A)6.8 A,from b to a
B)8.7 A,from b to a
C)6.8 A,from a to b
D)8.7 A,from a to b
E)16 A,from b to a
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40
A 5.0-Ω resistor and a 9.0-Ω resistor are connected in parallel.A 4.0-Ω resistor is then connected in series with this parallel combination.An ideal 6.0-V battery is then connected across the series-parallel combination of the three resistors.What is the current through
(a)the 4.0-Ω resistor?
(b)the 5.0-Ω resistor?
(c)the 9.0-Ω resistor?
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41
For the circuit shown in the figure,what is the current through resistor R3? <strong>For the circuit shown in the figure,what is the current through resistor R<sub>3</sub>? </strong> A)0.043 A B)1.5 A C)0.028 A D)0.086 A

A)0.043 A
B)1.5 A
C)0.028 A
D)0.086 A
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42
What is the maximum current that can be drawn from a 1.50-V battery with an internal resistance of 0.30 ohm?

A)2.5 A
B)5.0 A
C)0.45 A
D)0.20 A
E)4.5 A
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43
When a 100-Ω resistor is connected across the terminals of a battery of emf ε and internal resistance r,the battery delivers 0.794 W of power to the 100-Ω resistor.When the 100-Ω resistor is replaced by a 200-Ω resistor,the battery delivers 0.401 W of power to the 200-Ω resistor.What are the emf and internal resistance of the battery?

A)ε = 10.0 V,r = 5.02 Ω
B)ε = 4.50 V,r = 4.00 Ω
C)ε = 9.00 V,r = 2.04 Ω
D)ε = 9.00 V,r = 1.01 Ω
E)ε = 12.0 V,r = 6.00 Ω
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44
A galvanometer has a coil with a resistance of 24.0 Ω,and a current of 180 μA causes it to deflect full scale.If this galvanometer is to be used to construct an ammeter that can read up to 10.0 A,what shunt resistor is required?

A)123 µΩ
B)234 µΩ
C)342 µΩ
D)432 µΩ
E)423 µΩ
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45
A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.The current I2 is closest to <strong>A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.The current I<sub>2</sub> is closest to </strong> A)-6 A. B)6 A. C)8 A. D)-8 A. E)zero.

A)-6 A.
B)6 A.
C)8 A.
D)-8 A.
E)zero.
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46
For the circuit shown in the figure,what current does the ideal ammeter read? <strong>For the circuit shown in the figure,what current does the ideal ammeter read? </strong> A)0.033 A B)0.078 A C)0.23 A D)0.12 A

A)0.033 A
B)0.078 A
C)0.23 A
D)0.12 A
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47
A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I1 is closest to <strong>A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I<sub>1</sub> is closest to </strong> A)zero. B)+0.2 A. C)+0.4 A. D)-0.2 A. E)-0.4 A.

A)zero.
B)+0.2 A.
C)+0.4 A.
D)-0.2 A.
E)-0.4 A.
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48
A galvanometer coil having a resistance of 20 Ω and a full-scale deflection at 1.0 mA is connected in series with a 4980 Ω resistance to build a voltmeter.What is the maximum voltage that this voltmeter can read?

A)3.0 V
B)1.0 V
C)50 V
D)5.0 V
E)10 V
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49
When a 20.0-ohm resistor is connected across the terminals of a 12.0-V battery,the voltage across the terminals of the battery falls by 0.300 V.What is the internal resistance of this battery?

A)3.60 Ω
B)1.56 Ω
C)0.98 Ω
D)0.30 Ω
E)0.51 Ω
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50
In the circuit shown in the figure,two 360.0-Ω resistors are connected in series with an ideal source of emf.A voltmeter with internal resistance of 6350 Ω is connected across one of the resistors and reads 3.23 V.Find the emf of the source. In the circuit shown in the figure,two 360.0-Ω resistors are connected in series with an ideal source of emf.A voltmeter with internal resistance of 6350 Ω is connected across one of the resistors and reads 3.23 V.Find the emf of the source.
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51
A galvanometer has an internal resistance of 100 Ω and deflects full-scale at a current of 2.00 mA.What size resistor should be added to it to convert it to a millivoltmeter capable of reading up to 400 mV,and how should this resistor be connected to the galvanometer?

A)50.0 Ω in series with the galvanometer
B)50.0 Ω in parallel with the galvanometer
C)75.0 Ω in parallel with the galvanometer
D)100 Ω in series with the galvanometer
E)100 Ω in parallel with the galvanometer
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52
A galvanometer has an internal resistance of 100 Ω and deflects full-scale at 2.00 mA.What size resistor should be added to the galvanometer to convert it to a milliammeter capable of reading up to 4.00 mA,and how should this resistor be connected to the galvanometer?

A)50.0 Ω in series with the galvanometer
B)50.0 Ω in parallel with the galvanometer
C)75.0 Ω in parallel with the galvanometer
D)100 Ω in series with the galvanometer
E)100 Ω in parallel with the galvanometer
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53
A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I2 is closest to <strong>A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The current I<sub>2</sub> is closest to </strong> A)+0.1 A. B)+0.3 A. C)+0.5 A. D)-0.1 A. E)-0.3 A.

A)+0.1 A.
B)+0.3 A.
C)+0.5 A.
D)-0.1 A.
E)-0.3 A.
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54
A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The emf ε is closest to <strong>A multiloop circuit is shown in the figure.Some circuit quantities are not labeled.It is not necessary to solve the entire circuit.The emf ε is closest to </strong> A)+3 V. B)+19 V. C)-3 V. D)-10 V. E)-1 V.

A)+3 V.
B)+19 V.
C)-3 V.
D)-10 V.
E)-1 V.
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55
For the circuit shown in the figure,all quantities are accurate to 2 significant figures.What is the value of the current I1? <strong>For the circuit shown in the figure,all quantities are accurate to 2 significant figures.What is the value of the current I<sub>1</sub>? </strong> A)0.32 A B)0.11 A C)0.29 A D)0.61 A E)0.89 A

A)0.32 A
B)0.11 A
C)0.29 A
D)0.61 A
E)0.89 A
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56
A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.Compared to the polarity shown in the figure,the emf ε1 is closest to <strong>A multiloop circuit is shown in the figure.It is not necessary to solve the entire circuit.Compared to the polarity shown in the figure,the emf ε<sub>1 </sub>is closest to </strong> A)-5 V. B)5 V. C)45 V. D)51 V. E)-51 V.

A)-5 V.
B)5 V.
C)45 V.
D)51 V.
E)-51 V.
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57
Consider the circuit shown in the figure.Note that two currents are shown.Calculate the emfs ε1 and ε3. Consider the circuit shown in the figure.Note that two currents are shown.Calculate the emfs ε<sub>1</sub> and ε<sub>3</sub>.
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58
For the circuit shown in the figure,what is the current through resistor R1? <strong>For the circuit shown in the figure,what is the current through resistor R<sub>1</sub>? </strong> A)0.071 A B)0.13 A C)0.029 A D)0.016 A

A)0.071 A
B)0.13 A
C)0.029 A
D)0.016 A
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59
For the circuit shown in the figure,determine the current in
(a)the 7.0-Ω resistor.
(b)the 8.0-Ω resistor.
(c)the 4.0-Ω resistor. For the circuit shown in the figure,determine the current in (a)the 7.0-Ω resistor. (b)the 8.0-Ω resistor. (c)the 4.0-Ω resistor.
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60
A galvanometer with a resistance of 40.0 Ω deflects full scale at a current of 2.0 mA.What resistance should be used with this galvanometer in order to construct a voltmeter that can read a maximum of 50 V?

A)25 kΩ
B)27 kΩ
C)29 kΩ
D)31 kΩ
E)35 kΩ
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61
A 6.0-μF capacitor is connected in series with a 5.0 MΩ resistor,and this combination is connected across an ideal 15-V DC battery.What is the current in the circuit when the capacitor has reached 20% of its maximum charge?

A)6.5 μA
B)2.4 μA
C)1.3 μA
D)4.7 μA
E)9.1 μA
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62
For the circuit shown in the figure,the switch S is initially open and the capacitor is uncharged.The switch is then closed at time t = 0.How many seconds after closing the switch will the energy stored in the capacitor be equal to 50.2 mJ? <strong>For the circuit shown in the figure,the switch S is initially open and the capacitor is uncharged.The switch is then closed at time t = 0.How many seconds after closing the switch will the energy stored in the capacitor be equal to 50.2 mJ? </strong> A)81 s B)65 s C)97 s D)110 s E)130 s

A)81 s
B)65 s
C)97 s
D)110 s
E)130 s
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63
A 4.0-mF capacitor is discharged through a 4.0-kΩ resistor.How long will it take for the capacitor to lose half its initial stored energy?

A)9.2 s
B)2.7 s
C)10.2 s
D)5.5 s
E)1.6 s
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64
A 4.0-μF capacitor that is initially uncharged is connected in series with a 4.0-kΩ resistor and an ideal 17.0-V battery.How much energy is stored in the capacitor 17 ms after the battery has been connected?

A)250,000 nJ
B)15,000 kJ
C)25 µJ
D)890 nJ
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65
An uncharged 1.0-μF capacitor is connected in series with a <strong>An uncharged 1.0-μF capacitor is connected in series with a resistor,an ideal battery,and an open switch.What is the voltage across the capacitor after closing the switch?</strong> A)2.7 V B)1.6 V C)2.6 V D)0.62 V resistor,an ideal <strong>An uncharged 1.0-μF capacitor is connected in series with a resistor,an ideal battery,and an open switch.What is the voltage across the capacitor after closing the switch?</strong> A)2.7 V B)1.6 V C)2.6 V D)0.62 V battery,and an open switch.What is the voltage across the capacitor <strong>An uncharged 1.0-μF capacitor is connected in series with a resistor,an ideal battery,and an open switch.What is the voltage across the capacitor after closing the switch?</strong> A)2.7 V B)1.6 V C)2.6 V D)0.62 V after closing the switch?

A)2.7 V
B)1.6 V
C)2.6 V
D)0.62 V
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66
An uncharged 30.0-µF capacitor is connected in series with a 25.0-Ω resistor,a DC battery,and an open switch.The battery has an internal resistance of 10.0 Ω and the open-circuit voltage across its terminals is 50.0 V.The leads have no appreciable resistance.At time t = 0,the switch is suddenly closed.
(a)What is the maximum current through the 25.0-Ω resistor and when does it occur (immediately after closing the switch or after the switch has been closed for a long time)?
(b)What is the maximum charge that the capacitor receives?
(c)When the current in the circuit is 0.850 A,how much charge is on the plates of the capacitor?
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67
For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.How long after closing the switch will the current in the resistor be 7.0 µA? <strong>For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.How long after closing the switch will the current in the resistor be 7.0 µA? </strong> A)87 s B)95 s C)78 s D)69 s E)61 s

A)87 s
B)95 s
C)78 s
D)69 s
E)61 s
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68
For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.What is the charge on the capacitor when the current in the circuit is 33 μA? <strong>For the circuit shown in the figure,the switch S is initially open and the capacitor voltage is 80 V.The switch is then closed at time t = 0.What is the charge on the capacitor when the current in the circuit is 33 μA? </strong> A)1100 µC B)1000 µC C)960 µC D)890 µC E)830 µC

A)1100 µC
B)1000 µC
C)960 µC
D)890 µC
E)830 µC
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