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Deck 21: Current and Direct Current Circuits

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Question
To increase the current density in a wire of length \ell and diameter D,you can

A)decrease the potential difference between the two ends of the wire.
B)increase the potential difference between the two ends of the wire.
C)decrease the magnitude of the electric field in the wire.
D)heat the wire to a higher temperature.
E)combine both (b)and (d).
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Question
A nichrome wire and an aluminum wire,each with the same initial resistance,have the same change in resistance when heated separately.( ρ\rho Al = 2.82 *10 - 8 Ω\Omega .m; α\alpha Al = 3.9 *10 - 3 / °\degree C; ρ\rho nichrome = 1.50* 10 - 6 Ω\Omega .m; α\alpha nichrome = 0.40 * 10 - 3 / °\degree C. )The ratio of the temperature change of the nichrome wire to the temperature change of the aluminum wire is

A)0.019.
B)0.10.
C)0.18.
D)9.8.
E)53.
Question
In the Drude model of electrical conduction,the current density is directly proportional to

A)the average time interval between successive collisions.
B)the number of charge carriers per unit volume.
C)the square of the electron charge.
D)the electric field present in the wire.
E)the product of all four quantities listed above.
Question
Jadeen says that you can increase the resistance of a copper wire by hammering the wire to make it narrower and longer.Arnell says that you can increase its resistance by heating the wire.Which one,if either,is correct,and why?

A)Arnell,because the conductivity of the wire increases when it is heated.
B)Arnell,because the conductivity of the wire decreases when it is heated.
C)Jadeen,because the conductivity of a wire is directly proportional to its area and inversely proportional to its length.
D)Jadeen,because the conductivity of a copper wire does not increase when it is hammered.
E)Both are correct because (b)and (d)are both correct.
Question
Light bulb A is rated at 60 W and light bulb B is rated at 100 W.Both are designed to operate at 110 V.Which statement is correct?

A)The 60 W bulb has a greater resistance and greater current than the 100 W bulb.
B)The 60 W bulb has a greater resistance and smaller current than the 100 W bulb.
C)The 60 W bulb has a smaller resistance and smaller current than the 100 W bulb.
D)The 60 W bulb has a smaller resistance and greater current than the 100 W bulb.
E)We need to know the resistivities of the filaments to answer this question.
Question
The electron density in copper is 8.49 *1028 electrons/m3.The electron charge is e = -1.60 *10 - 19 C.When a 1.00 A current is present in a copper wire with a 0.40 cm2 cross-section,the electron drift velocity,in m/s,with direction defined relative to the current density,is

A)-1.84 *10 - 6.
B)+1.84 * 10 - 6.
C)-1.84.
D)-5.43 * 10 - .
E)+5.43 * 10 - .
Question
Most telephone cables are made of copper wire of either 24 or 26 gauge.If the resistance of 24-gauge wire is 137 Ω\Omega /mile and the resistance of 26-gauge wire is 220 Ω\Omega /mile,what is the ratio of the diameter of 24-gauge wire to that of 26-gauge wire?

A)1.6
B)1.3
C)0.62
D)0.79
E)0.88
Question
A rod (length = 80 cm)with a rectangular cross section (1.5 mm * 2.0 mm)has a resistance of 0.20 Ω\Omega .What is the resistivity of the material used to make the rod?

A)6.0 *10 - 7 Ω\Omega . m
B)3.8 *10 - 7 Ω\Omega . m
C)7.5 *10- 7 Ω\Omega .m
D)3.0 *10 - 7 Ω\Omega . m
E)4.8 *10 - 7 Ω\Omega .m
Question
The diagram shown represents a portion of a wire in a circuit.A current is flowing in the wire in the direction shown.Under the convention that it is positive charge that flows the electric field points in the direction of the current.How can the electric field change direction where the wire bends? <strong>The diagram shown represents a portion of a wire in a circuit.A current is flowing in the wire in the direction shown.Under the convention that it is positive charge that flows the electric field points in the direction of the current.How can the electric field change direction where the wire bends? </strong> A)There is an excess of negative charge in the center of the wire. B)There is an excess of positive charge at the bottom end of the wire. C)There is an excess of negative charge at the right end of the upper portion of the wire. D)There is an accumulation of positive charge on the surface,particularly at the bend,such that the sum of electric fields gives the new electric field. E)There is an accumulation of electrical potential as the current traverses the wire: The higher potential in the lower half is the source of the field. <div style=padding-top: 35px>

A)There is an excess of negative charge in the center of the wire.
B)There is an excess of positive charge at the bottom end of the wire.
C)There is an excess of negative charge at the right end of the upper portion of the wire.
D)There is an accumulation of positive charge on the surface,particularly at the bend,such that the sum of electric fields gives the new electric field.
E)There is an accumulation of electrical potential as the current traverses the wire: The higher potential in the lower half is the source of the field.
Question
The temperature coefficient of resistivity of iron is 5.0 *10 - 3 / °\degree C;that of carbon is-0.50 *10 - 3 / °\degree C.When an iron wire and a carbon rod,each having the same 10 Ω\Omega resistance at 20 °\degree C,are cooled from that temperature to -80 °\degree C,the new ratio of the resistance of the carbon rod to the resistance of the iron wire at the lower temperature is

A)-0.10.
B)+1.9.
C)+2.1.
D)-10.
E)+10.
Question
A high-resistance material is used as an insulator between the conductors of a length of coaxial cable.The resistance material,which forms a hollow tube,has an inner radius a and an outer radius b,and the insulator provides a resistance R between the conductors.If a second insulator,made of the same material and having the same length,is made with double both the inner radius and the outer radius of the first,what resistance would it provide between the conductors?

A)R
B)2 R
C)4 R
D)(ln2)R
E)R/(ln2)
Question
A wire (length = 2.0 m,diameter = 1.0 mm)has a resistance of 0.45 Ω\Omega .What is the resistivity of the material used to make the wire?

A)5.6*10- 7 Ω\Omega . m
B)1.2 *10 - 7 Ω\Omega . m
C)1.8*10 - 7 Ω\Omega . m
D)2.3 *10- 7 Ω\Omega . m
E)7.1* 10 - 7 Ω\Omega . m
Question
If a mile of 24-gauge copper wire has a resistance of 0.14 k Ω\Omega and the resistivity of copper is 1.7 *10 - 8 Ω\Omega . m,what is the diameter of the wire? (1 mile = 1.6 km)

A)0.40 mm
B)0.50 mm
C)0.63 mm
D)0.80 mm
E)0.25 mm
Question
In the Drude model of electrical conduction,the current density is NOT directly proportional to

A)the average time interval between successive collisions.
B)the number of charge carriers per unit volume.
C)the square of the electron charge.
D)the electric field present in the wire.
E)the resistivity of the wire.
Question
An electric device,which heats water by immersing a resistance wire in the water,generates 50 cal of heat per second when an electric potential difference of 12 V is placed across its leads.What is the resistance of the heater wire? (Note: 1 cal = 4.186 J)

A)0.94 Ω\Omega
B)0.81 Ω\Omega
C)0.58 Ω\Omega
D)0.69 Ω\Omega
E)1.5 Ω\Omega
Question
A conductor of radius r,length \ell and resistivity ρ\rho has resistance R.What is the new resistance if it is stretched to 4 times its original length?

A) 116\frac { 1 } { 16 } R
B) 14\frac { 1 } { 4 } R
C)R
D)4R
E)16R
Question
What is the resistance of a wire made of a material with a resistivity of 3.2*10 - 8 Ω\Omega . m if its length is 2.5 m and its diameter is 0.50 mm?

A)0.16 Ω\Omega
B)0.10 Ω\Omega
C)1.28 Ω\Omega
D)0.41 Ω\Omega
E)0.81 Ω\Omega
Question
If 480 C pass through a 4.0- Ω\Omega resistor in 10 min,what is the potential difference across the resistor?

A)3.6 V
B)2.8 V
C)2.4 V
D)3.2 V
E)5.0 V
Question
A rod of 2.0-m length and a square (2.0 mm *2.0 mm)cross section is made of a material with a resistivity of 6.0 *10 - 8 Ω\Omega . m.If a potential difference of 0.50 V is placed across the ends of the rod,at what rate is heat generated in the rod?

A)3.0 W
B)5.3 W
C)8.3 W
D)1.3 W
E)17 W
Question
How many electrons pass through a 20- Ω\Omega resistor in 10 min if there is a potential drop of 30 volts across it?

A)5.6*1021
B)7.5 *1021
C)9.4 * 1021
D)1.1* 1021
E)3.8* 1021
Question
What is the equivalent resistance between points a and b when R = 13 Ω\Omega ? <strong>What is the equivalent resistance between points a and b when R = 13 \Omega ? </strong> A)29 \Omega B)23 \Omega C)26 \Omega D)20 \Omega E)4.6 \Omega <div style=padding-top: 35px>

A)29 Ω\Omega
B)23 Ω\Omega
C)26 Ω\Omega
D)20 Ω\Omega
E)4.6 Ω\Omega
Question
A battery has an internal resistance of 4.0 Ω\Omega .Which of the following load resistors would have the most power delivered to it when connected across the battery?

A)1.4 Ω\Omega
B)2.0 Ω\Omega
C)4.0 Ω\Omega
D)8.0 Ω\Omega
E)16 Ω\Omega
Question
The circuit below contains three 100-W light bulbs and a capacitor.The emf ε\varepsilon = 110V.At the instant the switch S is closed,which light bulb is brightest? <strong>The circuit below contains three 100-W light bulbs and a capacitor.The emf \varepsilon = 110V.At the instant the switch S is closed,which light bulb is brightest? </strong> A)A B)B C)C D)A and B E)All three are equally bright. <div style=padding-top: 35px>

A)A
B)B
C)C
D)A and B
E)All three are equally bright.
Question
What maximum power can be generated from an 18-V emf using any combination of a 6.0- Ω\Omega resistor and a 9.0- Ω\Omega resistor?

A)54 W
B)71 W
C)90 W
D)80 W
E)22 W
Question
The circuit below contains three 100-watt light bulbs.The emf ε\varepsilon = 110 V.Which light bulb(s)is(are)the brightest? <strong>The circuit below contains three 100-watt light bulbs.The emf \varepsilon = 110 V.Which light bulb(s)is(are)the brightest? </strong> A)A B)B C)C D)B and C E)All three are equally bright. <div style=padding-top: 35px>

A)A
B)B
C)C
D)B and C
E)All three are equally bright.
Question
What is the equivalent resistance between points A and B in the figure when R = 20 Ω\Omega ? <strong>What is the equivalent resistance between points A and B in the figure when R = 20 \Omega ? </strong> A)77 \Omega B)63 \Omega C)70 \Omega D)84 \Omega E)140 \Omega <div style=padding-top: 35px>

A)77 Ω\Omega
B)63 Ω\Omega
C)70 Ω\Omega
D)84 Ω\Omega
E)140 Ω\Omega
Question
An electric heater is constructed by applying a potential difference of 110 V across a wire with a resistance of 5.0 Ω\Omega .What is the power rating of the heater?

A)2.0 kW
B)2.4 kW
C)1.7 kW
D)1.5 kW
E)60 kW
Question
What is the equivalent resistance between points a and b when R = 12 Ω\Omega ? <strong>What is the equivalent resistance between points a and b when R = 12 \Omega ? </strong> A)20 \Omega B)16 \Omega C)24 \Omega D)28 \Omega E)6.0 \Omega <div style=padding-top: 35px>

A)20 Ω\Omega
B)16 Ω\Omega
C)24 Ω\Omega
D)28 Ω\Omega
E)6.0 Ω\Omega
Question
What is the equivalent resistance between points a and b when R = 30 Ω\Omega ? <strong>What is the equivalent resistance between points a and b when R = 30 \Omega ? </strong> A)27 \Omega B)21 \Omega C)24 \Omega D)18 \Omega E)7.5 \Omega <div style=padding-top: 35px>

A)27 Ω\Omega
B)21 Ω\Omega
C)24 Ω\Omega
D)18 Ω\Omega
E)7.5 Ω\Omega
Question
A small bulb is rated at 7.50 W when operated at 125 V.The tungsten filament has a temperature coefficient of resistivity α\alpha = 4.50*10 - 3 / °\degree C.When the filament is hot and glowing,its temperature is seven times room temperature (20 °\degree C).What is the resistance of the filament (in ohms)at room temperature?

A)234
B)1 350
C)2 080
D)4 530
E)5 630
Question
The algebraic sum of the changes of potential around any closed circuit loop is

A)zero.
B)maximum.
C)zero only if there are no sources of emf in the loop.
D)maximum if there are no sources of emf in the loop.
E)equal to the sum of the currents in the branches of the loop.
Question
What is the equivalent resistance between points a and b? <strong>What is the equivalent resistance between points a and b? </strong> A)14 \Omega B)8.0 \Omega C)6.0 \Omega D)25 \Omega E)40 \Omega <div style=padding-top: 35px>

A)14 Ω\Omega
B)8.0 Ω\Omega
C)6.0 Ω\Omega
D)25 Ω\Omega
E)40 Ω\Omega
Question
What is the equivalent resistance between points A and B in the figure when R = 10 Ω\Omega ? <strong>What is the equivalent resistance between points A and B in the figure when R = 10 \Omega ? </strong> A)20 \Omega B)10 \Omega C)25 \Omega D)15 \Omega E)3.2 \Omega <div style=padding-top: 35px>

A)20 Ω\Omega
B)10 Ω\Omega
C)25 Ω\Omega
D)15 Ω\Omega
E)3.2 Ω\Omega
Question
A conductor of radius r,length \ell and resistivity ρ\rho has resistance R.It is melted down and formed into a new conductor,also cylindrical,with one fourth the length of the original conductor.The resistance of the new conductor is

A) 116\frac { 1 } { 16 } R
B) 14\frac { 1 } { 4 } R
C)R
D)4R
E)16R
Question
The circuit below contains three 100-W light bulbs.The emf ε\varepsilon = 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains three 100-W light bulbs.The emf \varepsilon = 110 V.Which light bulb(s)is(are)brightest? </strong> A)A B)B C)C D)B and C E)All three are equally bright. <div style=padding-top: 35px>

A)A
B)B
C)C
D)B and C
E)All three are equally bright.
Question
A cook plugs a 500 W crockpot and a 1 000 W kettle into a 240 V power supply,all operating on direct current.When we compare the two,we find that

A)Icrockpot < Ikettle and Rcrockpot < Rkettle.
B)Icrockpot < Ikettle and Rcrockpot > Rkettle.
C)Icrockpot = Ikettle and Rcrockpot = Rkettle.
D)Icrockpot > Ikettle and Rcrockpot < Rkettle.
E)Icrockpot > Ikettle and Rcrockpot > Rkettle.
Question
The circuit below contains three 100-watt light bulbs and a capacitor.The emf ε\varepsilon = 110V.The capacitor is fully charged.Which light bulb(s)is(are)dimmest? <strong>The circuit below contains three 100-watt light bulbs and a capacitor.The emf \varepsilon = 110V.The capacitor is fully charged.Which light bulb(s)is(are)dimmest? </strong> A)A B)B C)C D)A and B E)All three are equally bright (or dim). <div style=padding-top: 35px>

A)A
B)B
C)C
D)A and B
E)All three are equally bright (or dim).
Question
A light bulb is rated at 30 W when operated at 120 V.How much charge enters (and leaves)the light bulb in 1.0 min?

A)17 C
B)15 C
C)14 C
D)13 C
E)60 C
Question
How much energy is dissipated as heat during a two-minute time interval by a 1.5-k Ω\Omega resistor which has a constant 20-V potential difference across its leads?

A)58 J
B)46 J
C)32 J
D)72 J
E)16 J
Question
What is the equivalent resistance between points A and B in the figure when R = 18 Ω\Omega ? <strong>What is the equivalent resistance between points A and B in the figure when R = 18 \Omega ? </strong> A)48 \Omega B)64 \Omega C)80 \Omega D)96 \Omega E)110 \Omega <div style=padding-top: 35px>

A)48 Ω\Omega
B)64 Ω\Omega
C)80 Ω\Omega
D)96 Ω\Omega
E)110 Ω\Omega
Question
Determine the potential difference Va - Vb shown in the circuit below. <strong>Determine the potential difference V<sub>a</sub> - V<sub>b</sub> shown in the circuit below. </strong> A)-5.0 V B)+5.0 V C)-10 V D)+10 V E)0 V <div style=padding-top: 35px>

A)-5.0 V
B)+5.0 V
C)-10 V
D)+10 V
E)0 V
Question
Which of the identical light bulb(s)is(are)brightest when the capacitor has half its maximum charge? <strong>Which of the identical light bulb(s)is(are)brightest when the capacitor has half its maximum charge? </strong> A)A B)B C)C D)A and B E)All three are equally bright. <div style=padding-top: 35px>

A)A
B)B
C)C
D)A and B
E)All three are equally bright.
Question
When a 20-V emf is placed across two resistors in series,a current of 2.0 A is present in each of the resistors.When the same emf is placed across the same two resistors in parallel,the current through the emf is 10 A.What is the magnitude of the greater of the two resistances?

A)7.2 Ω\Omega
B)7.6 Ω\Omega
C)6.9 Ω\Omega
D)8.0 Ω\Omega
E)2.8 Ω\Omega
Question
What is the magnitude of the potential difference across the 20- Ω\Omega resistor? <strong>What is the magnitude of the potential difference across the 20- \Omega resistor? </strong> A)3.2 V B)7.8 V C)11 V D)5.0 V E)8.6 V <div style=padding-top: 35px>

A)3.2 V
B)7.8 V
C)11 V
D)5.0 V
E)8.6 V
Question
At what rate is thermal energy being generated in the 2R-resistor when ε\varepsilon = 12 V and R = 3.0 Ω\Omega ? <strong>At what rate is thermal energy being generated in the 2R-resistor when \varepsilon = 12 V and R = 3.0 \Omega ? </strong> A)12 W B)24 W C)6.0 W D)3.0 W E)1.5 W <div style=padding-top: 35px>

A)12 W
B)24 W
C)6.0 W
D)3.0 W
E)1.5 W
Question
At what rate is thermal energy generated in the 5- Ω\Omega resistor when ε\varepsilon = 24 V? <strong>At what rate is thermal energy generated in the 5- \Omega resistor when \varepsilon = 24 V? </strong> A)13 W B)3.2 W C)23 W D)39 W E)51 W <div style=padding-top: 35px>

A)13 W
B)3.2 W
C)23 W
D)39 W
E)51 W
Question
Determine the current in the 10-V emf. <strong>Determine the current in the 10-V emf. </strong> A)2.3 A B)2.7 A C)1.3 A D)0.30 A E)2.5 A <div style=padding-top: 35px>

A)2.3 A
B)2.7 A
C)1.3 A
D)0.30 A
E)2.5 A
Question
The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? </strong> A)A B)B C)C D)D E)C and D <div style=padding-top: 35px>

A)A
B)B
C)C
D)D
E)C and D
Question
What is the current in the 15- Ω\Omega resistor when ε\varepsilon = 9.0 V? <strong>What is the current in the 15- \Omega resistor when \varepsilon = 9.0 V? </strong> A)0.20 A B)0.30 A C)0.10 A D)0.26 A E)0.60 A <div style=padding-top: 35px>

A)0.20 A
B)0.30 A
C)0.10 A
D)0.26 A
E)0.60 A
Question
A resistor of unknown resistance and a 15- Ω\Omega resistor are connected across a 20-V emf in such a way that a 2.0 A current is observed in the emf.What is the value of the unknown resistance?

A)75 Ω\Omega
B)12 Ω\Omega
C)7.5 Ω\Omega
D)30 Ω\Omega
E)5.0 Ω\Omega
Question
What is the magnitude of the current in the 20- Ω\Omega resistor? <strong>What is the magnitude of the current in the 20- \Omega resistor? </strong> A)0.75 A B)0.00 A C)0.25 A D)0.50 A E)1.00 A <div style=padding-top: 35px>

A)0.75 A
B)0.00 A
C)0.25 A
D)0.50 A
E)1.00 A
Question
Determine ε\varepsilon when I = 0.50 A and R = 12 Ω\Omega . <strong>Determine \varepsilon when I = 0.50 A and R = 12 \Omega . </strong> A)12 V B)24 V C)30 V D)15 V E)6.0 V <div style=padding-top: 35px>

A)12 V
B)24 V
C)30 V
D)15 V
E)6.0 V
Question
How much heat is produced in the 10- Ω\Omega resistor in 5.0 s when ε\varepsilon = 18 V? <strong>How much heat is produced in the 10- \Omega resistor in 5.0 s when \varepsilon = 18 V? </strong> A)72 J B)32 J C)50 J D)18 J E)90 J <div style=padding-top: 35px>

A)72 J
B)32 J
C)50 J
D)18 J
E)90 J
Question
At what rate is thermal energy generated in the 30- Ω\Omega resistor? <strong>At what rate is thermal energy generated in the 30- \Omega resistor? </strong> A)20 W B)27 W C)60 W D)13 W E)30 W <div style=padding-top: 35px>

A)20 W
B)27 W
C)60 W
D)13 W
E)30 W
Question
At what rate is thermal energy generated in the 20- Ω\Omega resistor when ε\varepsilon = 20 V? <strong>At what rate is thermal energy generated in the 20- \Omega resistor when \varepsilon = 20 V? </strong> A)6.5 W B)1.6 W C)15 W D)26 W E)5.7 W <div style=padding-top: 35px>

A)6.5 W
B)1.6 W
C)15 W
D)26 W
E)5.7 W
Question
Determine R when I = 0.20 A and ε\varepsilon = 18 V. <strong>Determine R when I = 0.20 A and \varepsilon = 18 V. </strong> A)50 \Omega B)8.0 \Omega C)10 \Omega D)20 \Omega E)30 \Omega <div style=padding-top: 35px>

A)50 Ω\Omega
B)8.0 Ω\Omega
C)10 Ω\Omega
D)20 Ω\Omega
E)30 Ω\Omega
Question
The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? </strong> A)A B)B C)C D)D E)C and D <div style=padding-top: 35px>

A)A
B)B
C)C
D)D
E)C and D
Question
The circuit below contains 3 100-W light bulbs and a capacitor.The emf is 110 V.Which light bulb(s)is(are)brightest? (Assume the capacitor is fully charged. ) <strong>The circuit below contains 3 100-W light bulbs and a capacitor.The emf is 110 V.Which light bulb(s)is(are)brightest? (Assume the capacitor is fully charged. ) </strong> A)A B)B C)C D)A and B E)All three are equally bright. <div style=padding-top: 35px>

A)A
B)B
C)C
D)A and B
E)All three are equally bright.
Question
What is the current in the 10- Ω\Omega resistor ? <strong>What is the current in the 10- \Omega resistor ? </strong> A)0.60 A B)3.0 A C)1.2 A D)2.4 A E)0.30 A <div style=padding-top: 35px>

A)0.60 A
B)3.0 A
C)1.2 A
D)2.4 A
E)0.30 A
Question
The circuit below contains 5 identical light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains 5 identical light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? </strong> A)A: The one closest to the positive terminal of the battery. B)A and C: The bulbs closest to the positive terminal of the battery. C)A and B: Because they are closest to the terminals of the battery. D)C and D: Because they receive current from A and B and from E. E)E: Because the potential difference across E is that of the battery. <div style=padding-top: 35px>

A)A: The one closest to the positive terminal of the battery.
B)A and C: The bulbs closest to the positive terminal of the battery.
C)A and B: Because they are closest to the terminals of the battery.
D)C and D: Because they receive current from A and B and from E.
E)E: Because the potential difference across E is that of the battery.
Question
If I = 2.0 A in the circuit segment shown below,what is the potential difference VB -VA? <strong>If I = 2.0 A in the circuit segment shown below,what is the potential difference V<sub>B</sub> -V<sub>A</sub>? </strong> A)+10 V B)-20 V C)-10 V D)+20 V E)+30 V <div style=padding-top: 35px>

A)+10 V
B)-20 V
C)-10 V
D)+20 V
E)+30 V
Question
If the current in the 4.0- Ω\Omega resistor is 1.4 A,what is the magnitude of the potential difference,VA - VB? <strong>If the current in the 4.0- \Omega resistor is 1.4 A,what is the magnitude of the potential difference,V<sub>A</sub> - V<sub>B</sub>? </strong> A)69 V B)55 V C)62 V D)48 V E)31 V <div style=padding-top: 35px>

A)69 V
B)55 V
C)62 V
D)48 V
E)31 V
Question
If R = 4.0 k Ω\Omega ,C = 3.0 mF, ε\varepsilon = 15 V,Q = 12 mC,and I = 2.0 mA,what is the potential difference Vb- Va? <strong>If R = 4.0 k \Omega ,C = 3.0 mF, \varepsilon = 15 V,Q = 12 mC,and I = 2.0 mA,what is the potential difference V<sub>b</sub>- V<sub>a</sub>? </strong> A)+3.0 V B)-19 V C)-3.0 V D)+27 V E)+21 V <div style=padding-top: 35px>

A)+3.0 V
B)-19 V
C)-3.0 V
D)+27 V
E)+21 V
Question
If ε\varepsilon = 8.0 V,at what rate is that emf providing energy to the circuit shown below? <strong>If \varepsilon = 8.0 V,at what rate is that emf providing energy to the circuit shown below? </strong> A)8.4 W B)7.6 W C)5.6 W D)11 W E)2.0 W <div style=padding-top: 35px>

A)8.4 W
B)7.6 W
C)5.6 W
D)11 W
E)2.0 W
Question
If Q = 350 μ\mu C and I = 4.0 mA in the circuit segment shown below,determine the potential difference,VA - VB. <strong>If Q = 350 \mu C and I = 4.0 mA in the circuit segment shown below,determine the potential difference,V<sub>A</sub> - V<sub>B</sub>. </strong> A)-30 V B)+80 V C)+40 V D)-40 V E)+10 V <div style=padding-top: 35px>

A)-30 V
B)+80 V
C)+40 V
D)-40 V
E)+10 V
Question
If Q = 400 μ\mu C and the potential difference VA - VB = -10 V in the circuit segment shown below,what is the current in the resistor? <strong>If Q = 400 \mu C and the potential difference V<sub>A</sub> - V<sub>B</sub> = -10 V in the circuit segment shown below,what is the current in the resistor? </strong> A)1.0 mA right to left B)1.0 mA left to right C)3.5 mA right to left D)3.5 mA left to right E)None of the above <div style=padding-top: 35px>

A)1.0 mA right to left
B)1.0 mA left to right
C)3.5 mA right to left
D)3.5 mA left to right
E)None of the above
Question
If R = 3.0 k Ω\Omega ,C = 5.0 mF, ε\varepsilon = 6.0 V,Q = 15 mC,and I = 4.0 mA,what is the potential difference Vb - Va? <strong>If R = 3.0 k \Omega ,C = 5.0 mF, \varepsilon = 6.0 V,Q = 15 mC,and I = 4.0 mA,what is the potential difference V<sub>b</sub> - V<sub>a</sub>? </strong> A)-3.0 V B)+9.0 V C)-15 V D)+21 V E)-6.0 V <div style=padding-top: 35px>

A)-3.0 V
B)+9.0 V
C)-15 V
D)+21 V
E)-6.0 V
Question
If R = 2.0 k Ω\Omega ,C = 4.0 mF, ε\varepsilon = 8.0 V,Q = 20 mC,and I = 3.0 mA,what is the potential difference Vb - Va? <strong>If R = 2.0 k \Omega ,C = 4.0 mF, \varepsilon = 8.0 V,Q = 20 mC,and I = 3.0 mA,what is the potential difference V<sub>b</sub> - V<sub>a</sub>? </strong> A)+7.0 V B)+19 V C)+9.0 V D)-3.0 V E)-14 V <div style=padding-top: 35px>

A)+7.0 V
B)+19 V
C)+9.0 V
D)-3.0 V
E)-14 V
Question
If ε\varepsilon 1 = 4.0 V, ε\varepsilon 2 = 12.0 V,R1 = 4 Ω\Omega ,R2 = 12 Ω\Omega ,C = 3 μ\mu F,Q = 18 μ\mu C,and I = 2.5 A,what is the potential difference Va -Vb? <strong>If \varepsilon <sub> 1</sub> = 4.0 V, \varepsilon <sub> 2</sub> = 12.0 V,R<sub>1</sub> = 4 \Omega ,R<sub>2</sub> = 12 \Omega ,C = 3 \mu F,Q = 18 \mu C,and I = 2.5 A,what is the potential difference V<sub>a</sub> -V<sub>b</sub>? </strong> A)-30 V B)30 V C)5.0 V D)-5.0 V E)-1.0 V <div style=padding-top: 35px>

A)-30 V
B)30 V
C)5.0 V
D)-5.0 V
E)-1.0 V
Question
What is the potential difference VB - VA when the I = 1.5 A in the circuit segment below? <strong>What is the potential difference V<sub>B</sub> - V<sub>A</sub> when the I = 1.5 A in the circuit segment below? </strong> A)+22 V B)-22 V C)-38 V D)+38 V E)+2.0 V <div style=padding-top: 35px>

A)+22 V
B)-22 V
C)-38 V
D)+38 V
E)+2.0 V
Question
Determine the potential difference,VA - VB,in the circuit segment shown below when I = 2.0 mA and Q = 50 μ\mu C. <strong>Determine the potential difference,V<sub>A</sub> - V<sub>B</sub>,in the circuit segment shown below when I = 2.0 mA and Q = 50 \mu C. </strong> A)-40 V B)+40 V C)+20 V D)-20 V E)-10 V <div style=padding-top: 35px>

A)-40 V
B)+40 V
C)+20 V
D)-20 V
E)-10 V
Question
Determine the magnitude and sense (direction)of the current in the 500- Ω\Omega resistor when I = 30 mA. <strong>Determine the magnitude and sense (direction)of the current in the 500- \Omega resistor when I = 30 mA. </strong> A)56 mA left to right B)56 mA right to left C)48 mA left to right D)48 mA right to left E)26 mA left to right <div style=padding-top: 35px>

A)56 mA left to right
B)56 mA right to left
C)48 mA left to right
D)48 mA right to left
E)26 mA left to right
Question
If R = 3.0 k Ω\Omega ,C = 6.0 nF, ε\varepsilon 1 = 10.0 V,Q = 18 nC, ε\varepsilon 2 = 6.0 V,and I = 5.0 mA,what is the potential difference Vb - Va? <strong>If R = 3.0 k \Omega ,C = 6.0 nF, \varepsilon <sub> 1</sub> = 10.0 V,Q = 18 nC, \varepsilon <sub> 2</sub> = 6.0 V,and I = 5.0 mA,what is the potential difference V<sub>b</sub> - V<sub>a</sub>? </strong> A)-13 V B)+28 V C)+13 V D)-28 V E)+2.0 V <div style=padding-top: 35px>

A)-13 V
B)+28 V
C)+13 V
D)-28 V
E)+2.0 V
Question
Determine the resistance R when I = 1.5 A. <strong>Determine the resistance R when I = 1.5 A. </strong> A)40 \Omega B)8.0 \Omega C)85 \Omega D)28 \Omega E)32 \Omega <div style=padding-top: 35px>

A)40 Ω\Omega
B)8.0 Ω\Omega
C)85 Ω\Omega
D)28 Ω\Omega
E)32 Ω\Omega
Question
At what rate is power supplied by the 10-V emf shown below? <strong>At what rate is power supplied by the 10-V emf shown below? </strong> A)-10 W B)+10 W C)zero D)+20 W E)-20 W <div style=padding-top: 35px>

A)-10 W
B)+10 W
C)zero
D)+20 W
E)-20 W
Question
Determine the magnitude and sense (direction)of the current in the 10- Ω\Omega resistor when I = 1.8 A. <strong>Determine the magnitude and sense (direction)of the current in the 10- \Omega resistor when I = 1.8 A. </strong> A)1.6 A right to left B)1.6 A left to right C)1.2 A right to left D)1.2 A left to right E)1.8 A left to right <div style=padding-top: 35px>

A)1.6 A right to left
B)1.6 A left to right
C)1.2 A right to left
D)1.2 A left to right
E)1.8 A left to right
Question
What is the potential difference VB - VA when I = 0.50 A in the circuit segment shown below? <strong>What is the potential difference V<sub>B</sub> - V<sub>A </sub>when I = 0.50 A in the circuit segment shown below? </strong> A)+28 V B)+2.0 V C)-28 V D)-2.0 V E)+18 V <div style=padding-top: 35px>

A)+28 V
B)+2.0 V
C)-28 V
D)-2.0 V
E)+18 V
Question
If I = 0.40 A in the circuit segment shown below,what is the potential difference Va -Vb? <strong>If I = 0.40 A in the circuit segment shown below,what is the potential difference V<sub>a</sub> -V<sub>b</sub>? </strong> A)31 V B)28 V C)25 V D)34 V E)10 V <div style=padding-top: 35px>

A)31 V
B)28 V
C)25 V
D)34 V
E)10 V
Question
If R1 = 10 Ω\Omega ,R2 = 15 Ω\Omega ,R3 = 20 Ω\Omega ,and I = 0.50 A,at what rate is heat being generated in these resistors? <strong>If R<sub>1</sub> = 10 \Omega ,R<sub>2</sub> = 15 \Omega ,R<sub>3</sub> = 20 \Omega ,and I = 0.50 A,at what rate is heat being generated in these resistors? </strong> A)29 W B)16 W C)22 W D)11 W E)1.1 W <div style=padding-top: 35px>

A)29 W
B)16 W
C)22 W
D)11 W
E)1.1 W
Question
What is the potential difference Vb - Va shown in the circuit below. <strong>What is the potential difference V<sub>b</sub> - V<sub>a</sub> shown in the circuit below. </strong> A)-8.0 V B)+8.0 V C)-18 V D)+18 V E)-12 V <div style=padding-top: 35px>

A)-8.0 V
B)+8.0 V
C)-18 V
D)+18 V
E)-12 V
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Deck 21: Current and Direct Current Circuits
1
To increase the current density in a wire of length \ell and diameter D,you can

A)decrease the potential difference between the two ends of the wire.
B)increase the potential difference between the two ends of the wire.
C)decrease the magnitude of the electric field in the wire.
D)heat the wire to a higher temperature.
E)combine both (b)and (d).
increase the potential difference between the two ends of the wire.
2
A nichrome wire and an aluminum wire,each with the same initial resistance,have the same change in resistance when heated separately.( ρ\rho Al = 2.82 *10 - 8 Ω\Omega .m; α\alpha Al = 3.9 *10 - 3 / °\degree C; ρ\rho nichrome = 1.50* 10 - 6 Ω\Omega .m; α\alpha nichrome = 0.40 * 10 - 3 / °\degree C. )The ratio of the temperature change of the nichrome wire to the temperature change of the aluminum wire is

A)0.019.
B)0.10.
C)0.18.
D)9.8.
E)53.
9.8.
3
In the Drude model of electrical conduction,the current density is directly proportional to

A)the average time interval between successive collisions.
B)the number of charge carriers per unit volume.
C)the square of the electron charge.
D)the electric field present in the wire.
E)the product of all four quantities listed above.
the product of all four quantities listed above.
4
Jadeen says that you can increase the resistance of a copper wire by hammering the wire to make it narrower and longer.Arnell says that you can increase its resistance by heating the wire.Which one,if either,is correct,and why?

A)Arnell,because the conductivity of the wire increases when it is heated.
B)Arnell,because the conductivity of the wire decreases when it is heated.
C)Jadeen,because the conductivity of a wire is directly proportional to its area and inversely proportional to its length.
D)Jadeen,because the conductivity of a copper wire does not increase when it is hammered.
E)Both are correct because (b)and (d)are both correct.
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5
Light bulb A is rated at 60 W and light bulb B is rated at 100 W.Both are designed to operate at 110 V.Which statement is correct?

A)The 60 W bulb has a greater resistance and greater current than the 100 W bulb.
B)The 60 W bulb has a greater resistance and smaller current than the 100 W bulb.
C)The 60 W bulb has a smaller resistance and smaller current than the 100 W bulb.
D)The 60 W bulb has a smaller resistance and greater current than the 100 W bulb.
E)We need to know the resistivities of the filaments to answer this question.
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6
The electron density in copper is 8.49 *1028 electrons/m3.The electron charge is e = -1.60 *10 - 19 C.When a 1.00 A current is present in a copper wire with a 0.40 cm2 cross-section,the electron drift velocity,in m/s,with direction defined relative to the current density,is

A)-1.84 *10 - 6.
B)+1.84 * 10 - 6.
C)-1.84.
D)-5.43 * 10 - .
E)+5.43 * 10 - .
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7
Most telephone cables are made of copper wire of either 24 or 26 gauge.If the resistance of 24-gauge wire is 137 Ω\Omega /mile and the resistance of 26-gauge wire is 220 Ω\Omega /mile,what is the ratio of the diameter of 24-gauge wire to that of 26-gauge wire?

A)1.6
B)1.3
C)0.62
D)0.79
E)0.88
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8
A rod (length = 80 cm)with a rectangular cross section (1.5 mm * 2.0 mm)has a resistance of 0.20 Ω\Omega .What is the resistivity of the material used to make the rod?

A)6.0 *10 - 7 Ω\Omega . m
B)3.8 *10 - 7 Ω\Omega . m
C)7.5 *10- 7 Ω\Omega .m
D)3.0 *10 - 7 Ω\Omega . m
E)4.8 *10 - 7 Ω\Omega .m
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9
The diagram shown represents a portion of a wire in a circuit.A current is flowing in the wire in the direction shown.Under the convention that it is positive charge that flows the electric field points in the direction of the current.How can the electric field change direction where the wire bends? <strong>The diagram shown represents a portion of a wire in a circuit.A current is flowing in the wire in the direction shown.Under the convention that it is positive charge that flows the electric field points in the direction of the current.How can the electric field change direction where the wire bends? </strong> A)There is an excess of negative charge in the center of the wire. B)There is an excess of positive charge at the bottom end of the wire. C)There is an excess of negative charge at the right end of the upper portion of the wire. D)There is an accumulation of positive charge on the surface,particularly at the bend,such that the sum of electric fields gives the new electric field. E)There is an accumulation of electrical potential as the current traverses the wire: The higher potential in the lower half is the source of the field.

A)There is an excess of negative charge in the center of the wire.
B)There is an excess of positive charge at the bottom end of the wire.
C)There is an excess of negative charge at the right end of the upper portion of the wire.
D)There is an accumulation of positive charge on the surface,particularly at the bend,such that the sum of electric fields gives the new electric field.
E)There is an accumulation of electrical potential as the current traverses the wire: The higher potential in the lower half is the source of the field.
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10
The temperature coefficient of resistivity of iron is 5.0 *10 - 3 / °\degree C;that of carbon is-0.50 *10 - 3 / °\degree C.When an iron wire and a carbon rod,each having the same 10 Ω\Omega resistance at 20 °\degree C,are cooled from that temperature to -80 °\degree C,the new ratio of the resistance of the carbon rod to the resistance of the iron wire at the lower temperature is

A)-0.10.
B)+1.9.
C)+2.1.
D)-10.
E)+10.
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11
A high-resistance material is used as an insulator between the conductors of a length of coaxial cable.The resistance material,which forms a hollow tube,has an inner radius a and an outer radius b,and the insulator provides a resistance R between the conductors.If a second insulator,made of the same material and having the same length,is made with double both the inner radius and the outer radius of the first,what resistance would it provide between the conductors?

A)R
B)2 R
C)4 R
D)(ln2)R
E)R/(ln2)
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12
A wire (length = 2.0 m,diameter = 1.0 mm)has a resistance of 0.45 Ω\Omega .What is the resistivity of the material used to make the wire?

A)5.6*10- 7 Ω\Omega . m
B)1.2 *10 - 7 Ω\Omega . m
C)1.8*10 - 7 Ω\Omega . m
D)2.3 *10- 7 Ω\Omega . m
E)7.1* 10 - 7 Ω\Omega . m
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13
If a mile of 24-gauge copper wire has a resistance of 0.14 k Ω\Omega and the resistivity of copper is 1.7 *10 - 8 Ω\Omega . m,what is the diameter of the wire? (1 mile = 1.6 km)

A)0.40 mm
B)0.50 mm
C)0.63 mm
D)0.80 mm
E)0.25 mm
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14
In the Drude model of electrical conduction,the current density is NOT directly proportional to

A)the average time interval between successive collisions.
B)the number of charge carriers per unit volume.
C)the square of the electron charge.
D)the electric field present in the wire.
E)the resistivity of the wire.
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15
An electric device,which heats water by immersing a resistance wire in the water,generates 50 cal of heat per second when an electric potential difference of 12 V is placed across its leads.What is the resistance of the heater wire? (Note: 1 cal = 4.186 J)

A)0.94 Ω\Omega
B)0.81 Ω\Omega
C)0.58 Ω\Omega
D)0.69 Ω\Omega
E)1.5 Ω\Omega
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16
A conductor of radius r,length \ell and resistivity ρ\rho has resistance R.What is the new resistance if it is stretched to 4 times its original length?

A) 116\frac { 1 } { 16 } R
B) 14\frac { 1 } { 4 } R
C)R
D)4R
E)16R
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17
What is the resistance of a wire made of a material with a resistivity of 3.2*10 - 8 Ω\Omega . m if its length is 2.5 m and its diameter is 0.50 mm?

A)0.16 Ω\Omega
B)0.10 Ω\Omega
C)1.28 Ω\Omega
D)0.41 Ω\Omega
E)0.81 Ω\Omega
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18
If 480 C pass through a 4.0- Ω\Omega resistor in 10 min,what is the potential difference across the resistor?

A)3.6 V
B)2.8 V
C)2.4 V
D)3.2 V
E)5.0 V
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19
A rod of 2.0-m length and a square (2.0 mm *2.0 mm)cross section is made of a material with a resistivity of 6.0 *10 - 8 Ω\Omega . m.If a potential difference of 0.50 V is placed across the ends of the rod,at what rate is heat generated in the rod?

A)3.0 W
B)5.3 W
C)8.3 W
D)1.3 W
E)17 W
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20
How many electrons pass through a 20- Ω\Omega resistor in 10 min if there is a potential drop of 30 volts across it?

A)5.6*1021
B)7.5 *1021
C)9.4 * 1021
D)1.1* 1021
E)3.8* 1021
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21
What is the equivalent resistance between points a and b when R = 13 Ω\Omega ? <strong>What is the equivalent resistance between points a and b when R = 13 \Omega ? </strong> A)29 \Omega B)23 \Omega C)26 \Omega D)20 \Omega E)4.6 \Omega

A)29 Ω\Omega
B)23 Ω\Omega
C)26 Ω\Omega
D)20 Ω\Omega
E)4.6 Ω\Omega
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22
A battery has an internal resistance of 4.0 Ω\Omega .Which of the following load resistors would have the most power delivered to it when connected across the battery?

A)1.4 Ω\Omega
B)2.0 Ω\Omega
C)4.0 Ω\Omega
D)8.0 Ω\Omega
E)16 Ω\Omega
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23
The circuit below contains three 100-W light bulbs and a capacitor.The emf ε\varepsilon = 110V.At the instant the switch S is closed,which light bulb is brightest? <strong>The circuit below contains three 100-W light bulbs and a capacitor.The emf \varepsilon = 110V.At the instant the switch S is closed,which light bulb is brightest? </strong> A)A B)B C)C D)A and B E)All three are equally bright.

A)A
B)B
C)C
D)A and B
E)All three are equally bright.
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24
What maximum power can be generated from an 18-V emf using any combination of a 6.0- Ω\Omega resistor and a 9.0- Ω\Omega resistor?

A)54 W
B)71 W
C)90 W
D)80 W
E)22 W
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25
The circuit below contains three 100-watt light bulbs.The emf ε\varepsilon = 110 V.Which light bulb(s)is(are)the brightest? <strong>The circuit below contains three 100-watt light bulbs.The emf \varepsilon = 110 V.Which light bulb(s)is(are)the brightest? </strong> A)A B)B C)C D)B and C E)All three are equally bright.

A)A
B)B
C)C
D)B and C
E)All three are equally bright.
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26
What is the equivalent resistance between points A and B in the figure when R = 20 Ω\Omega ? <strong>What is the equivalent resistance between points A and B in the figure when R = 20 \Omega ? </strong> A)77 \Omega B)63 \Omega C)70 \Omega D)84 \Omega E)140 \Omega

A)77 Ω\Omega
B)63 Ω\Omega
C)70 Ω\Omega
D)84 Ω\Omega
E)140 Ω\Omega
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27
An electric heater is constructed by applying a potential difference of 110 V across a wire with a resistance of 5.0 Ω\Omega .What is the power rating of the heater?

A)2.0 kW
B)2.4 kW
C)1.7 kW
D)1.5 kW
E)60 kW
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28
What is the equivalent resistance between points a and b when R = 12 Ω\Omega ? <strong>What is the equivalent resistance between points a and b when R = 12 \Omega ? </strong> A)20 \Omega B)16 \Omega C)24 \Omega D)28 \Omega E)6.0 \Omega

A)20 Ω\Omega
B)16 Ω\Omega
C)24 Ω\Omega
D)28 Ω\Omega
E)6.0 Ω\Omega
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29
What is the equivalent resistance between points a and b when R = 30 Ω\Omega ? <strong>What is the equivalent resistance between points a and b when R = 30 \Omega ? </strong> A)27 \Omega B)21 \Omega C)24 \Omega D)18 \Omega E)7.5 \Omega

A)27 Ω\Omega
B)21 Ω\Omega
C)24 Ω\Omega
D)18 Ω\Omega
E)7.5 Ω\Omega
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30
A small bulb is rated at 7.50 W when operated at 125 V.The tungsten filament has a temperature coefficient of resistivity α\alpha = 4.50*10 - 3 / °\degree C.When the filament is hot and glowing,its temperature is seven times room temperature (20 °\degree C).What is the resistance of the filament (in ohms)at room temperature?

A)234
B)1 350
C)2 080
D)4 530
E)5 630
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31
The algebraic sum of the changes of potential around any closed circuit loop is

A)zero.
B)maximum.
C)zero only if there are no sources of emf in the loop.
D)maximum if there are no sources of emf in the loop.
E)equal to the sum of the currents in the branches of the loop.
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32
What is the equivalent resistance between points a and b? <strong>What is the equivalent resistance between points a and b? </strong> A)14 \Omega B)8.0 \Omega C)6.0 \Omega D)25 \Omega E)40 \Omega

A)14 Ω\Omega
B)8.0 Ω\Omega
C)6.0 Ω\Omega
D)25 Ω\Omega
E)40 Ω\Omega
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33
What is the equivalent resistance between points A and B in the figure when R = 10 Ω\Omega ? <strong>What is the equivalent resistance between points A and B in the figure when R = 10 \Omega ? </strong> A)20 \Omega B)10 \Omega C)25 \Omega D)15 \Omega E)3.2 \Omega

A)20 Ω\Omega
B)10 Ω\Omega
C)25 Ω\Omega
D)15 Ω\Omega
E)3.2 Ω\Omega
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34
A conductor of radius r,length \ell and resistivity ρ\rho has resistance R.It is melted down and formed into a new conductor,also cylindrical,with one fourth the length of the original conductor.The resistance of the new conductor is

A) 116\frac { 1 } { 16 } R
B) 14\frac { 1 } { 4 } R
C)R
D)4R
E)16R
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35
The circuit below contains three 100-W light bulbs.The emf ε\varepsilon = 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains three 100-W light bulbs.The emf \varepsilon = 110 V.Which light bulb(s)is(are)brightest? </strong> A)A B)B C)C D)B and C E)All three are equally bright.

A)A
B)B
C)C
D)B and C
E)All three are equally bright.
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36
A cook plugs a 500 W crockpot and a 1 000 W kettle into a 240 V power supply,all operating on direct current.When we compare the two,we find that

A)Icrockpot < Ikettle and Rcrockpot < Rkettle.
B)Icrockpot < Ikettle and Rcrockpot > Rkettle.
C)Icrockpot = Ikettle and Rcrockpot = Rkettle.
D)Icrockpot > Ikettle and Rcrockpot < Rkettle.
E)Icrockpot > Ikettle and Rcrockpot > Rkettle.
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37
The circuit below contains three 100-watt light bulbs and a capacitor.The emf ε\varepsilon = 110V.The capacitor is fully charged.Which light bulb(s)is(are)dimmest? <strong>The circuit below contains three 100-watt light bulbs and a capacitor.The emf \varepsilon = 110V.The capacitor is fully charged.Which light bulb(s)is(are)dimmest? </strong> A)A B)B C)C D)A and B E)All three are equally bright (or dim).

A)A
B)B
C)C
D)A and B
E)All three are equally bright (or dim).
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38
A light bulb is rated at 30 W when operated at 120 V.How much charge enters (and leaves)the light bulb in 1.0 min?

A)17 C
B)15 C
C)14 C
D)13 C
E)60 C
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39
How much energy is dissipated as heat during a two-minute time interval by a 1.5-k Ω\Omega resistor which has a constant 20-V potential difference across its leads?

A)58 J
B)46 J
C)32 J
D)72 J
E)16 J
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40
What is the equivalent resistance between points A and B in the figure when R = 18 Ω\Omega ? <strong>What is the equivalent resistance between points A and B in the figure when R = 18 \Omega ? </strong> A)48 \Omega B)64 \Omega C)80 \Omega D)96 \Omega E)110 \Omega

A)48 Ω\Omega
B)64 Ω\Omega
C)80 Ω\Omega
D)96 Ω\Omega
E)110 Ω\Omega
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41
Determine the potential difference Va - Vb shown in the circuit below. <strong>Determine the potential difference V<sub>a</sub> - V<sub>b</sub> shown in the circuit below. </strong> A)-5.0 V B)+5.0 V C)-10 V D)+10 V E)0 V

A)-5.0 V
B)+5.0 V
C)-10 V
D)+10 V
E)0 V
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42
Which of the identical light bulb(s)is(are)brightest when the capacitor has half its maximum charge? <strong>Which of the identical light bulb(s)is(are)brightest when the capacitor has half its maximum charge? </strong> A)A B)B C)C D)A and B E)All three are equally bright.

A)A
B)B
C)C
D)A and B
E)All three are equally bright.
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43
When a 20-V emf is placed across two resistors in series,a current of 2.0 A is present in each of the resistors.When the same emf is placed across the same two resistors in parallel,the current through the emf is 10 A.What is the magnitude of the greater of the two resistances?

A)7.2 Ω\Omega
B)7.6 Ω\Omega
C)6.9 Ω\Omega
D)8.0 Ω\Omega
E)2.8 Ω\Omega
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44
What is the magnitude of the potential difference across the 20- Ω\Omega resistor? <strong>What is the magnitude of the potential difference across the 20- \Omega resistor? </strong> A)3.2 V B)7.8 V C)11 V D)5.0 V E)8.6 V

A)3.2 V
B)7.8 V
C)11 V
D)5.0 V
E)8.6 V
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45
At what rate is thermal energy being generated in the 2R-resistor when ε\varepsilon = 12 V and R = 3.0 Ω\Omega ? <strong>At what rate is thermal energy being generated in the 2R-resistor when \varepsilon = 12 V and R = 3.0 \Omega ? </strong> A)12 W B)24 W C)6.0 W D)3.0 W E)1.5 W

A)12 W
B)24 W
C)6.0 W
D)3.0 W
E)1.5 W
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46
At what rate is thermal energy generated in the 5- Ω\Omega resistor when ε\varepsilon = 24 V? <strong>At what rate is thermal energy generated in the 5- \Omega resistor when \varepsilon = 24 V? </strong> A)13 W B)3.2 W C)23 W D)39 W E)51 W

A)13 W
B)3.2 W
C)23 W
D)39 W
E)51 W
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47
Determine the current in the 10-V emf. <strong>Determine the current in the 10-V emf. </strong> A)2.3 A B)2.7 A C)1.3 A D)0.30 A E)2.5 A

A)2.3 A
B)2.7 A
C)1.3 A
D)0.30 A
E)2.5 A
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48
The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? </strong> A)A B)B C)C D)D E)C and D

A)A
B)B
C)C
D)D
E)C and D
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49
What is the current in the 15- Ω\Omega resistor when ε\varepsilon = 9.0 V? <strong>What is the current in the 15- \Omega resistor when \varepsilon = 9.0 V? </strong> A)0.20 A B)0.30 A C)0.10 A D)0.26 A E)0.60 A

A)0.20 A
B)0.30 A
C)0.10 A
D)0.26 A
E)0.60 A
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50
A resistor of unknown resistance and a 15- Ω\Omega resistor are connected across a 20-V emf in such a way that a 2.0 A current is observed in the emf.What is the value of the unknown resistance?

A)75 Ω\Omega
B)12 Ω\Omega
C)7.5 Ω\Omega
D)30 Ω\Omega
E)5.0 Ω\Omega
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51
What is the magnitude of the current in the 20- Ω\Omega resistor? <strong>What is the magnitude of the current in the 20- \Omega resistor? </strong> A)0.75 A B)0.00 A C)0.25 A D)0.50 A E)1.00 A

A)0.75 A
B)0.00 A
C)0.25 A
D)0.50 A
E)1.00 A
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52
Determine ε\varepsilon when I = 0.50 A and R = 12 Ω\Omega . <strong>Determine \varepsilon when I = 0.50 A and R = 12 \Omega . </strong> A)12 V B)24 V C)30 V D)15 V E)6.0 V

A)12 V
B)24 V
C)30 V
D)15 V
E)6.0 V
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53
How much heat is produced in the 10- Ω\Omega resistor in 5.0 s when ε\varepsilon = 18 V? <strong>How much heat is produced in the 10- \Omega resistor in 5.0 s when \varepsilon = 18 V? </strong> A)72 J B)32 J C)50 J D)18 J E)90 J

A)72 J
B)32 J
C)50 J
D)18 J
E)90 J
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54
At what rate is thermal energy generated in the 30- Ω\Omega resistor? <strong>At what rate is thermal energy generated in the 30- \Omega resistor? </strong> A)20 W B)27 W C)60 W D)13 W E)30 W

A)20 W
B)27 W
C)60 W
D)13 W
E)30 W
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55
At what rate is thermal energy generated in the 20- Ω\Omega resistor when ε\varepsilon = 20 V? <strong>At what rate is thermal energy generated in the 20- \Omega resistor when \varepsilon = 20 V? </strong> A)6.5 W B)1.6 W C)15 W D)26 W E)5.7 W

A)6.5 W
B)1.6 W
C)15 W
D)26 W
E)5.7 W
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56
Determine R when I = 0.20 A and ε\varepsilon = 18 V. <strong>Determine R when I = 0.20 A and \varepsilon = 18 V. </strong> A)50 \Omega B)8.0 \Omega C)10 \Omega D)20 \Omega E)30 \Omega

A)50 Ω\Omega
B)8.0 Ω\Omega
C)10 Ω\Omega
D)20 Ω\Omega
E)30 Ω\Omega
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57
The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains 4 100-W light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? </strong> A)A B)B C)C D)D E)C and D

A)A
B)B
C)C
D)D
E)C and D
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58
The circuit below contains 3 100-W light bulbs and a capacitor.The emf is 110 V.Which light bulb(s)is(are)brightest? (Assume the capacitor is fully charged. ) <strong>The circuit below contains 3 100-W light bulbs and a capacitor.The emf is 110 V.Which light bulb(s)is(are)brightest? (Assume the capacitor is fully charged. ) </strong> A)A B)B C)C D)A and B E)All three are equally bright.

A)A
B)B
C)C
D)A and B
E)All three are equally bright.
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59
What is the current in the 10- Ω\Omega resistor ? <strong>What is the current in the 10- \Omega resistor ? </strong> A)0.60 A B)3.0 A C)1.2 A D)2.4 A E)0.30 A

A)0.60 A
B)3.0 A
C)1.2 A
D)2.4 A
E)0.30 A
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60
The circuit below contains 5 identical light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? <strong>The circuit below contains 5 identical light bulbs.The emf is 110 V.Which light bulb(s)is(are)brightest? </strong> A)A: The one closest to the positive terminal of the battery. B)A and C: The bulbs closest to the positive terminal of the battery. C)A and B: Because they are closest to the terminals of the battery. D)C and D: Because they receive current from A and B and from E. E)E: Because the potential difference across E is that of the battery.

A)A: The one closest to the positive terminal of the battery.
B)A and C: The bulbs closest to the positive terminal of the battery.
C)A and B: Because they are closest to the terminals of the battery.
D)C and D: Because they receive current from A and B and from E.
E)E: Because the potential difference across E is that of the battery.
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61
If I = 2.0 A in the circuit segment shown below,what is the potential difference VB -VA? <strong>If I = 2.0 A in the circuit segment shown below,what is the potential difference V<sub>B</sub> -V<sub>A</sub>? </strong> A)+10 V B)-20 V C)-10 V D)+20 V E)+30 V

A)+10 V
B)-20 V
C)-10 V
D)+20 V
E)+30 V
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62
If the current in the 4.0- Ω\Omega resistor is 1.4 A,what is the magnitude of the potential difference,VA - VB? <strong>If the current in the 4.0- \Omega resistor is 1.4 A,what is the magnitude of the potential difference,V<sub>A</sub> - V<sub>B</sub>? </strong> A)69 V B)55 V C)62 V D)48 V E)31 V

A)69 V
B)55 V
C)62 V
D)48 V
E)31 V
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63
If R = 4.0 k Ω\Omega ,C = 3.0 mF, ε\varepsilon = 15 V,Q = 12 mC,and I = 2.0 mA,what is the potential difference Vb- Va? <strong>If R = 4.0 k \Omega ,C = 3.0 mF, \varepsilon = 15 V,Q = 12 mC,and I = 2.0 mA,what is the potential difference V<sub>b</sub>- V<sub>a</sub>? </strong> A)+3.0 V B)-19 V C)-3.0 V D)+27 V E)+21 V

A)+3.0 V
B)-19 V
C)-3.0 V
D)+27 V
E)+21 V
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64
If ε\varepsilon = 8.0 V,at what rate is that emf providing energy to the circuit shown below? <strong>If \varepsilon = 8.0 V,at what rate is that emf providing energy to the circuit shown below? </strong> A)8.4 W B)7.6 W C)5.6 W D)11 W E)2.0 W

A)8.4 W
B)7.6 W
C)5.6 W
D)11 W
E)2.0 W
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65
If Q = 350 μ\mu C and I = 4.0 mA in the circuit segment shown below,determine the potential difference,VA - VB. <strong>If Q = 350 \mu C and I = 4.0 mA in the circuit segment shown below,determine the potential difference,V<sub>A</sub> - V<sub>B</sub>. </strong> A)-30 V B)+80 V C)+40 V D)-40 V E)+10 V

A)-30 V
B)+80 V
C)+40 V
D)-40 V
E)+10 V
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66
If Q = 400 μ\mu C and the potential difference VA - VB = -10 V in the circuit segment shown below,what is the current in the resistor? <strong>If Q = 400 \mu C and the potential difference V<sub>A</sub> - V<sub>B</sub> = -10 V in the circuit segment shown below,what is the current in the resistor? </strong> A)1.0 mA right to left B)1.0 mA left to right C)3.5 mA right to left D)3.5 mA left to right E)None of the above

A)1.0 mA right to left
B)1.0 mA left to right
C)3.5 mA right to left
D)3.5 mA left to right
E)None of the above
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67
If R = 3.0 k Ω\Omega ,C = 5.0 mF, ε\varepsilon = 6.0 V,Q = 15 mC,and I = 4.0 mA,what is the potential difference Vb - Va? <strong>If R = 3.0 k \Omega ,C = 5.0 mF, \varepsilon = 6.0 V,Q = 15 mC,and I = 4.0 mA,what is the potential difference V<sub>b</sub> - V<sub>a</sub>? </strong> A)-3.0 V B)+9.0 V C)-15 V D)+21 V E)-6.0 V

A)-3.0 V
B)+9.0 V
C)-15 V
D)+21 V
E)-6.0 V
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68
If R = 2.0 k Ω\Omega ,C = 4.0 mF, ε\varepsilon = 8.0 V,Q = 20 mC,and I = 3.0 mA,what is the potential difference Vb - Va? <strong>If R = 2.0 k \Omega ,C = 4.0 mF, \varepsilon = 8.0 V,Q = 20 mC,and I = 3.0 mA,what is the potential difference V<sub>b</sub> - V<sub>a</sub>? </strong> A)+7.0 V B)+19 V C)+9.0 V D)-3.0 V E)-14 V

A)+7.0 V
B)+19 V
C)+9.0 V
D)-3.0 V
E)-14 V
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69
If ε\varepsilon 1 = 4.0 V, ε\varepsilon 2 = 12.0 V,R1 = 4 Ω\Omega ,R2 = 12 Ω\Omega ,C = 3 μ\mu F,Q = 18 μ\mu C,and I = 2.5 A,what is the potential difference Va -Vb? <strong>If \varepsilon <sub> 1</sub> = 4.0 V, \varepsilon <sub> 2</sub> = 12.0 V,R<sub>1</sub> = 4 \Omega ,R<sub>2</sub> = 12 \Omega ,C = 3 \mu F,Q = 18 \mu C,and I = 2.5 A,what is the potential difference V<sub>a</sub> -V<sub>b</sub>? </strong> A)-30 V B)30 V C)5.0 V D)-5.0 V E)-1.0 V

A)-30 V
B)30 V
C)5.0 V
D)-5.0 V
E)-1.0 V
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70
What is the potential difference VB - VA when the I = 1.5 A in the circuit segment below? <strong>What is the potential difference V<sub>B</sub> - V<sub>A</sub> when the I = 1.5 A in the circuit segment below? </strong> A)+22 V B)-22 V C)-38 V D)+38 V E)+2.0 V

A)+22 V
B)-22 V
C)-38 V
D)+38 V
E)+2.0 V
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71
Determine the potential difference,VA - VB,in the circuit segment shown below when I = 2.0 mA and Q = 50 μ\mu C. <strong>Determine the potential difference,V<sub>A</sub> - V<sub>B</sub>,in the circuit segment shown below when I = 2.0 mA and Q = 50 \mu C. </strong> A)-40 V B)+40 V C)+20 V D)-20 V E)-10 V

A)-40 V
B)+40 V
C)+20 V
D)-20 V
E)-10 V
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72
Determine the magnitude and sense (direction)of the current in the 500- Ω\Omega resistor when I = 30 mA. <strong>Determine the magnitude and sense (direction)of the current in the 500- \Omega resistor when I = 30 mA. </strong> A)56 mA left to right B)56 mA right to left C)48 mA left to right D)48 mA right to left E)26 mA left to right

A)56 mA left to right
B)56 mA right to left
C)48 mA left to right
D)48 mA right to left
E)26 mA left to right
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73
If R = 3.0 k Ω\Omega ,C = 6.0 nF, ε\varepsilon 1 = 10.0 V,Q = 18 nC, ε\varepsilon 2 = 6.0 V,and I = 5.0 mA,what is the potential difference Vb - Va? <strong>If R = 3.0 k \Omega ,C = 6.0 nF, \varepsilon <sub> 1</sub> = 10.0 V,Q = 18 nC, \varepsilon <sub> 2</sub> = 6.0 V,and I = 5.0 mA,what is the potential difference V<sub>b</sub> - V<sub>a</sub>? </strong> A)-13 V B)+28 V C)+13 V D)-28 V E)+2.0 V

A)-13 V
B)+28 V
C)+13 V
D)-28 V
E)+2.0 V
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74
Determine the resistance R when I = 1.5 A. <strong>Determine the resistance R when I = 1.5 A. </strong> A)40 \Omega B)8.0 \Omega C)85 \Omega D)28 \Omega E)32 \Omega

A)40 Ω\Omega
B)8.0 Ω\Omega
C)85 Ω\Omega
D)28 Ω\Omega
E)32 Ω\Omega
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75
At what rate is power supplied by the 10-V emf shown below? <strong>At what rate is power supplied by the 10-V emf shown below? </strong> A)-10 W B)+10 W C)zero D)+20 W E)-20 W

A)-10 W
B)+10 W
C)zero
D)+20 W
E)-20 W
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76
Determine the magnitude and sense (direction)of the current in the 10- Ω\Omega resistor when I = 1.8 A. <strong>Determine the magnitude and sense (direction)of the current in the 10- \Omega resistor when I = 1.8 A. </strong> A)1.6 A right to left B)1.6 A left to right C)1.2 A right to left D)1.2 A left to right E)1.8 A left to right

A)1.6 A right to left
B)1.6 A left to right
C)1.2 A right to left
D)1.2 A left to right
E)1.8 A left to right
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77
What is the potential difference VB - VA when I = 0.50 A in the circuit segment shown below? <strong>What is the potential difference V<sub>B</sub> - V<sub>A </sub>when I = 0.50 A in the circuit segment shown below? </strong> A)+28 V B)+2.0 V C)-28 V D)-2.0 V E)+18 V

A)+28 V
B)+2.0 V
C)-28 V
D)-2.0 V
E)+18 V
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78
If I = 0.40 A in the circuit segment shown below,what is the potential difference Va -Vb? <strong>If I = 0.40 A in the circuit segment shown below,what is the potential difference V<sub>a</sub> -V<sub>b</sub>? </strong> A)31 V B)28 V C)25 V D)34 V E)10 V

A)31 V
B)28 V
C)25 V
D)34 V
E)10 V
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79
If R1 = 10 Ω\Omega ,R2 = 15 Ω\Omega ,R3 = 20 Ω\Omega ,and I = 0.50 A,at what rate is heat being generated in these resistors? <strong>If R<sub>1</sub> = 10 \Omega ,R<sub>2</sub> = 15 \Omega ,R<sub>3</sub> = 20 \Omega ,and I = 0.50 A,at what rate is heat being generated in these resistors? </strong> A)29 W B)16 W C)22 W D)11 W E)1.1 W

A)29 W
B)16 W
C)22 W
D)11 W
E)1.1 W
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80
What is the potential difference Vb - Va shown in the circuit below. <strong>What is the potential difference V<sub>b</sub> - V<sub>a</sub> shown in the circuit below. </strong> A)-8.0 V B)+8.0 V C)-18 V D)+18 V E)-12 V

A)-8.0 V
B)+8.0 V
C)-18 V
D)+18 V
E)-12 V
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