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Title: Halliday/Resnick/Walker Fundamentals of Physics 8th edition


1
Halliday/Resnick/WalkerFundamentals of Physics
8th edition
  • Classroom Response System Questions

Chapter 21 Electric Charge
Reading Quiz Questions
2
21.2.1. Which one of the following statements
concerning the electric force is true? a) Two
charged objects with identical charges will exert
an attractive force on one another. b) It is
possible for a small negatively-charged particle
to float above a negatively charged surface. c)
A positively-charged object is attracted toward
another positively-charged object. d) The
electric force cannot alter the motion of an
object. e) Newtons third law of motion does
not apply to the electrostatic force.
3
21.2.1. Which one of the following statements
concerning the electric force is true? a) Two
charged objects with identical charges will exert
an attractive force on one another. b) It is
possible for a small negatively-charged particle
to float above a negatively charged surface. c)
A positively-charged object is attracted toward
another positively-charged object. d) The
electric force cannot alter the motion of an
object. e) Newtons third law of motion does
not apply to the electrostatic force.
4
21.2.2. Which one of the following scientists is
credited with assigning the ? and signs
used to describe the two kinds of charge? a)
Lord Kelvin b) Isaac Newton c) James Watt d)
Leonardo Da Vinci e) Benjamin Franklin
5
21.2.2. Which one of the following scientists is
credited with assigning the ? and signs
used to describe the two kinds of charge? a)
Lord Kelvin b) Isaac Newton c) James Watt d)
Leonardo Da Vinci e) Benjamin Franklin
6
21.3.1. Complete the following sentence When
wool is rubbed along a copper rod, a) the
copper becomes positively charged and the wool
becomes negatively charged. b) the copper and
the wool become positively charged. c) the
copper becomes negatively charged and the wool
becomes positively charged. d) the copper and
the wool become negatively charged. e) the
copper becomes negatively charged and the wool
remains electrically neutral.
7
21.3.1. Complete the following sentence When
wool is rubbed along a copper rod, a) the
copper becomes positively charged and the wool
becomes negatively charged. b) the copper and
the wool become positively charged. c) the
copper becomes negatively charged and the wool
becomes positively charged. d) the copper and
the wool become negatively charged. e) the
copper becomes negatively charged and the wool
remains electrically neutral.
8
21.3.2. Complete the following sentence an
electric insulator has a) the ability to easily
conduct electricity, but does not easily conduct
heat. b) few electrons available to conduct
electricity. c) the ability to easily conduct
electricity and heat. d) no ability to conduct
electricity. e) many free electrons available
to conduct electricity.
9
21.3.2. Complete the following sentence an
electric insulator has a) the ability to easily
conduct electricity, but does not easily conduct
heat. b) few electrons available to conduct
electricity. c) the ability to easily conduct
electricity and heat. d) no ability to conduct
electricity. e) many free electrons available
to conduct electricity.
10
21.3.3. Which one of the following statements
concerning electrical conductors is false? a)
Rubber is an excellent electrical conductor. b)
A material that is a good electrical conductor
has many free electrons that can easily move
around inside the material. c) When a
positively-charged object is moved into contact
with an electrical conductor, electrons move
toward the object. d) Materials that are good
thermal conductors are often good electrical
conductors. e) Most metals are very good
electrical conductors.
11
21.3.3. Which one of the following statements
concerning electrical conductors is false? a)
Rubber is an excellent electrical conductor. b)
A material that is a good electrical conductor
has many free electrons that can easily move
around inside the material. c) When a
positively-charged object is moved into contact
with an electrical conductor, electrons move
toward the object. d) Materials that are good
thermal conductors are often good electrical
conductors. e) Most metals are very good
electrical conductors.
12
21.3.4. Which of the following terms is used to
describe a material that does not allow electrons
to easily move through it? a) conductor b)
resistor c) insulator d) transformer e)
inductor
13
21.3.4. Which of the following terms is used to
describe a material that does not allow electrons
to easily move through it? a) conductor b)
resistor c) insulator d) transformer e)
inductor
14
21.3.5. Which of the following statements
describes an object as having an induced
charge? a) A glass rod is rubbed with silk. b)
A negatively-charged object is brought into
contact with an initially uncharged conductor.
When they are separated, both objects are
negatively charged. c) A rubber rod is rubbed
with animal fur. d) A positively-charged object
is brought near with an initially uncharged
insulator. The surface of the insulator becomes
slightly negatively charged. e) As you grab a
door knob in the winter time, you feel a slight
electric spark.
15
21.3.5. Which of the following statements
describes an object as having an induced
charge? a) A glass rod is rubbed with silk. b)
A negatively-charged object is brought into
contact with an initially uncharged conductor.
When they are separated, both objects are
negatively charged. c) A rubber rod is rubbed
with animal fur. d) A positively-charged object
is brought near with an initially uncharged
insulator. The surface of the insulator becomes
slightly negatively charged. e) As you grab a
door knob in the winter time, you feel a slight
electric spark.
16
21.3.6. A conductor that is initially
electrically neutral is touched by a rod that has
a net positive charge. Which of the following
statements describing the conductor after the rod
is removed is true? a) The conductor will have
a net positive charge. b) The conductor will
electrically neutral. c) The conductor will
have a net negative charge.
17
21.3.6. A conductor that is initially
electrically neutral is touched by a rod that has
a net positive charge. Which of the following
statements describing the conductor after the rod
is removed is true? a) The conductor will have
a net positive charge. b) The conductor will
electrically neutral. c) The conductor will
have a net negative charge.
18
21.3.7. Silicon is an example of what type of
material? a) metal b) insulator c)
semiconductor d) superconductor e) perfect
conductor
19
21.3.7. Silicon is an example of what type of
material? a) metal b) insulator c)
semiconductor d) superconductor e) perfect
conductor
20
21.4.1. Two positively charged particles are
separated by a distance r. The force on particle
1 is F due to particle 2. The force on particle
2 is 2F due to particle 1. Is the previous
sentence true or false? Explain why this is the
case. a) The sentence is true, if the net
charge of particle 1 is twice that of particle
2. b) The sentence is false because the forces
on each of the two objects are equal in
magnitude, but opposite in direction. c) The
sentence is true since the particles are
separated by a distance r. d) The sentence is
false because two positively charged particles
cannot exert a force on each other.
21
21.4.1. Two positively charged particles are
separated by a distance r. The force on particle
1 is F due to particle 2. The force on particle
2 is 2F due to particle 1. Is the previous
sentence true or false? Explain why this is the
case. a) The sentence is true, if the net
charge of particle 1 is twice that of particle
2. b) The sentence is false because the forces
on each of the two objects are equal in
magnitude, but opposite in direction. c) The
sentence is true since the particles are
separated by a distance r. d) The sentence is
false because two positively charged particles
cannot exert a force on each other.
22
21.4.2. Two positively charged particles are
separated by a distance r. Which of the
following statements concerning the electrostatic
force between acting on each particle due to the
presence of the other is true? a) The
electrostatic force may be calculated using
Faradays law. b) The electrostatic force
depends on the masses of the two particles. c)
The electrostatic force depends on r2. d) The
electrostatic force increases as r is
increased. e) The electrostatic force is on
each particle is directed toward the other
particle.
23
21.4.2. Two positively charged particles are
separated by a distance r. Which of the
following statements concerning the electrostatic
force between acting on each particle due to the
presence of the other is true? a) The
electrostatic force may be calculated using
Faradays law. b) The electrostatic force
depends on the masses of the two particles. c)
The electrostatic force depends on r2. d) The
electrostatic force increases as r is
increased. e) The electrostatic force is on
each particle is directed toward the other
particle.
24
21.4.3. Coulombs law is similar to Newtons law
of gravitation in several ways. Which one of the
statements is not a similarity between these two
laws? a) In both laws, the force is inversely
proportional to the square of the distance
between two particles. b) In both laws, the
force decreases with increasing distance between
the two particles. c) In both laws, the force
is proportional to the product of an intrinsic
property of each of the two particles. d) In
both laws, the force is always one of attraction
between the two particles. e) In both laws,
there is a proportionality constant that appears.
25
21.4.3. Coulombs law is similar to Newtons law
of gravitation in several ways. Which one of the
statements is not a similarity between these two
laws? a) In both laws, the force is inversely
proportional to the square of the distance
between two particles. b) In both laws, the
force decreases with increasing distance between
the two particles. c) In both laws, the force
is proportional to the product of an intrinsic
property of each of the two particles. d) In
both laws, the force is always one of attraction
between the two particles. e) In both laws,
there is a proportionality constant that appears.
26
21.4.4. A charged particle, labeled A, is located
at the midpoint between two other charged
particles, labeled B and C, as shown. The sign
of the charges on all three particles is the
same. When particle A is released, it starts
drifting toward B. What can be determined from
this behavior? a) The charge on A is larger
than the charge on B. b) The charge on A is
larger than the charge on C. c) The charge on C
is larger than the charge on B. d) The charge
on B is larger than the charge on A. e) The
charge on B is larger than the charge on C.
27
21.4.4. A charged particle, labeled A, is located
at the midpoint between two other charged
particles, labeled B and C, as shown. The sign
of the charges on all three particles is the
same. When particle A is released, it starts
drifting toward B. What can be determined from
this behavior? a) The charge on A is larger
than the charge on B. b) The charge on A is
larger than the charge on C. c) The charge on C
is larger than the charge on B. d) The charge
on B is larger than the charge on A. e) The
charge on B is larger than the charge on C.
28
21.4.5. As shown in the drawing, a positively
charged particle remains stationary between
particles A and B. The positively charged
particle is one-quarter the distance between the
two other particles, as shown. What can be
concluded from the situation? a) Nothing can
be concluded without more information. b) A and
B are positively charged. c) A and B are
negatively charged. d) A is positively charged
and B is negatively charged. e) B is positively
charged and A is negatively charged.
29
21.4.5. As shown in the drawing, a positively
charged particle remains stationary between
particles A and B. The positively charged
particle is one-quarter the distance between the
two other particles, as shown. What can be
concluded from the situation? a) Nothing can
be concluded without more information. b) A and
B are positively charged. c) A and B are
negatively charged. d) A is positively charged
and B is negatively charged. e) B is positively
charged and A is negatively charged.
30
21.4.6. The unit of electrical current is the
ampere (A). Which one of the combinations of
units is equivalent to the ampere? a) C ? s b)
C/s c) N ? m/s d) J ? s e) kg ? m2/s
31
21.4.6. The unit of electrical current is the
ampere (A). Which one of the combinations of
units is equivalent to the ampere? a) C ? s b)
C/s c) N ? m/s d) J ? s e) kg ? m2/s
32
21.5.1. Which one of the following values is the
smallest possible amount of free charge that has
been discovered? a) 5.34 ? 10?20 coulombs b)
1.60 ? 10?19 coulombs c) 1.38 ? 10?23
coulombs d) 6.63 ? 10?34 coulombs e) 8.85 ?
10?12 coulombs
33
21.5.1. Which one of the following values is the
smallest possible amount of free charge that has
been discovered? a) 5.34 ? 10?20 coulombs b)
1.60 ? 10?19 coulombs c) 1.38 ? 10?23
coulombs d) 6.63 ? 10?34 coulombs e) 8.85 ?
10?12 coulombs
34
21.5.2. Which one of the following statements
concerning the net electric charge on an object
is true? a) An object with a net negative
charge has an excess number of protons. b) The
net charge can have any value greater than 1.60 ?
10?19 coulombs. c) The net charge on an object
is always a negative number. d) Since protons
are larger, a proton can carry more charge than
an electron. e) The net charge is quantized.
35
21.5.2. Which one of the following statements
concerning the net electric charge on an object
is true? a) An object with a net negative
charge has an excess number of protons. b) The
net charge can have any value greater than 1.60 ?
10?19 coulombs. c) The net charge on an object
is always a negative number. d) Since protons
are larger, a proton can carry more charge than
an electron. e) The net charge is quantized.
36
21.5.3. Which one of the following rules, laws,
or principles describes how the net electric
charge of an isolated system undergoing any
process remains constant? a) Coulombs
principle b) rule of seventy-two c) principle
of electric induction d) law of the
conservation of electric charge e) law of
triboelectric synthesis
37
21.5.3. Which one of the following rules, laws,
or principles describes how the net electric
charge of an isolated system undergoing any
process remains constant? a) Coulombs
principle b) rule of seventy-two c) principle
of electric induction d) law of the
conservation of electric charge e) law of
triboelectric synthesis
38
21.5.4. Which one of the following statements is
false? a) The total number of positive and
negative charges within a system may change. b)
Electric charge is quantized. c) Electric
charge is conserved. d) A system may have a
charge that is equal to two-thirds of the charge
on an electron. e) The convention is to
consider the electron as having a negative charge.
39
21.5.4. Which one of the following statements is
false? a) The total number of positive and
negative charges within a system may change. b)
Electric charge is quantized. c) Electric
charge is conserved. d) A system may have a
charge that is equal to two-thirds of the charge
on an electron. e) The convention is to
consider the electron as having a negative charge.
40
21.6.1. Which one of the following statements is
a consequence of charge being conserved? a) The
difference between the number of positive and
negative charges does not change for a given
system. b) If you examine a system at different
times, the total number of charges will
change. c) Energy within the system is also
conserved. d) The positive and negative charges
within a system must be quantized. e) The
numbers of electrons and protons for a given
system cannot change.
41
21.6.1. Which one of the following statements is
a consequence of charge being conserved? a) The
difference between the number of positive and
negative charges does not change for a given
system. b) If you examine a system at different
times, the total number of charges will
change. c) Energy within the system is also
conserved. d) The positive and negative charges
within a system must be quantized. e) The
numbers of electrons and protons for a given
system cannot change.
42
21.6.2. When an electron (charge ?1.60 10?19 C)
and a positron (charge 1.60 10?19 C) come
together, they annihilate one another. Two
particles of light (photons) are emitted from the
annihilation. This is an example of what type of
physical phenomena? a) charge quantization b)
charge separation c) Coulomb force d) charge
density wave e) charge conservation
43
21.6.2. When an electron (charge ?1.60 10?19 C)
and a positron (charge 1.60 10?19 C) come
together, they annihilate one another. Two
particles of light (photons) are emitted from the
annihilation. This is an example of what type of
physical phenomena? a) charge quantization b)
charge separation c) Coulomb force d) charge
density wave e) charge conservation
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