Question 1

Gauss' law for magnetism: A) can be used to find due to given currents provided there is enough symmetry B) is false because there are no magnetic poles C) can be used with open surfaces because there are no magnetic poles D) contradicts Faraday's law because one says $\phi$_B = 0 and the other says $\varepsilon$ = -d$\phi$_B/dt E) none of the above

Accepted Answer

none of the above&#10;

Question 2

A 1-A current is used to charge a parallel plate capacitor. A large square piece of paper is placed between the plates and parallel to them so it sticks out on all sides. The value of the integral around the perimeter of the paper is: A) 2 T .m B) 4 $\pi$*10^-⁷ T. m C) 8.85 *10^-¹² T . m D) 10^-⁷ T. m E) not determined from the given quantities

Accepted Answer

4 $\pi$*10^-⁷ T. m

Question 3

The diagram shows one plate of a parallel-plate capacitor from within the capacitor. The plate is circular and has radius R. The dashed circles are four integration paths have radii of r₁ = R/4, r₂ = R/2, r₃ =3 R/2, and r₄ = 2R. Rank the paths according to the magnitude of around the paths during the discharging of the capacitor, least to greatest.

A) 1, 2 and 3 tie, then 4
B) 1, 2, 3, 4
C) 1, then 2 and 4 tie, then 3
D) 4, 3, 1, 2
E) all tie

Accepted Answer

1, then 2 and 4 tie, then 3

Question 4

A cylindrical region contains a uniform electric field that is along the cylinder axis and is changing with time. If r is the distance from the cylinder axis the magnitude of the magnetic field within the region is:

A) uniform
B) proportional to 1/r
C) proportional to r²
D) proportional to 1/r²
E) proportional to r

Accepted Answer

According to Faraday's Law of Induction, a changing electric field produces a magnetic field. As the electric field is changing with time, it will produce a magnetic field. As the magnetic field is along the cylinder axis, its magnitude will be proportional to the perpendicular distance from the axis, i.e., r. Therefore, option E, proportional to r, is the correct choice.

Question 5

Four closed surfaces are shown. The areas A_top and A_bot of the top and bottom faces and the magnitudes B_top and B_bot of the uniform magnetic fields through the top and bottom faces are given. The fields are perpendicular to the faces and are either inward or outward. Rank the surfaces according to the magnitude of the magnetic flux through the curved sides, least to greatest.

A) 1, 2, 3, 4
B) 3, 4, 1, 2
C) 1, 2, 4, 3
D) 4, 3, 2, 1
E) 2, 1, 4, 3

Accepted Answer

The direction of the magnetic field in the curved sides can be determined using the right-hand rule. Imagine gripping the surface with your right hand so that your fingers curl along the curved surface. Your thumb will point in the direction of the magnetic field. 
For surface 1, the magnetic field is outward through the top face and inward through the bottom face. Using the right-hand rule, the direction of the magnetic field through the curved sides is clockwise, resulting in a negative flux. 
For surface 2, the magnetic field is inward through both faces. Using the right-hand rule, the direction of the magnetic field through the curved sides is counterclockwise, resulting in a positive flux.
For surface 3, the magnetic field is inward through the top face and outward through the bottom face. Using the right-hand rule, the direction of the magnetic field through the curved sides is counterclockwise, resulting in a positive flux.
For surface 4, the magnetic field is outward through both faces. Using the right-hand rule, the direction of the magnetic field through the curved sides is clockwise, resulting in a negative flux. 
Therefore, the surfaces can be ranked in increasing order of magnetic flux through the curved sides as follows: 3, 4, 1, 2. This matches option B.

Question 6

A cylindrical region contains a uniform electric field that is parallel to the axis and is changing with time. If r is the distance from the cylinder axis the magnitude of the magnetic field outside the region is:

A) 0
B) proportional to 1/r
C) proportional to r²
D) proportional to 1/r²
E) proportional to r

Accepted Answer

Based on Faraday's law, a changing electric field creates a magnetic field. Since the electric field is parallel to the axis, the magnetic field will be perpendicular to the axis and will form circular loops around the axis. The magnitude of the magnetic field outside the cylindrical region is inversely proportional to the distance from the axis, therefore proportional to 1/r. Hence, the correct answer is B.

Question 7

An electron is on the z axis moving toward the xy plane but it has not reached that plane yet. At that instant:&#10;A) there is only a true current through the xy plane&#10;B) there is only a displacement current through the xy plane&#10;C) there are both true and displacement currents through the xy plane&#10;D) there is neither a true nor a displacement current through the xy plane&#10;E) none of the above are true

Accepted Answer

At the moment the electron has not reached the xy plane yet, there is no actual flow of charge through that plane, so there is no true current. However, according to Ampere's law, a changing electric field can induce a magnetic field, which induces a changing magnetic flux through a surface. This changing magnetic flux, in turn, can induce an electric field through the surface. This is known as displacement current. Therefore, there is only a displacement current through the xy plane.

Question 8

A magnetic field parallel to the x axis with a magnitude that decreases with increasing x but does not change with y and z is impossible according to:&#10;A) Faraday's law&#10;B) Ampere's law&#10;C) Gauss' law for electricity&#10;D) Gauss' law for magnetism&#10;E) Newton's second law

Accepted Answer

Gauss' law for magnetism states that the divergence of the magnetic field is always zero, meaning that the magnetic field lines must be closed loops. In this case, a magnetic field parallel to the x axis with a magnitude that decreases with increasing x but does not change with y and z would violate the requirement for closed magnetic field lines. Therefore, it is impossible according to Gauss' law for magnetism.

Question 9

A 0.70-m radius cylindrical region contains a uniform electric field that is parallel to the axis and is increasing at the rate 5.0 * 10¹² V/m . s. The magnetic field at a point 1.2 m from the axis has a magnitude of:

A) 0
B) 7.0 * 10^-⁶ T
C) 1.1* 10^-⁵ T
D) 2.3 * 10^-⁵ T
E) 2.8 * 10^-⁵ T

Accepted Answer

The magnetic field at a distance from the axis of a cylindrical region with a changing electric field can be calculated using Ampère's law with Maxwell's addition. The displacement current density is proportional to the rate of change of the electric field. Using the formula B = (μ₀ε₀r/2) * (dE/dt) for r > R, where R is the radius of the cylinder, we find the magnetic field at 1.2 m from the axis.

Question 10

A 1.2-m radius cylindrical region contains a uniform electric field along the cylinder axis. It is increasing uniformly with time. To obtain a total displacement current of 2.0*10 ^- ⁹ A through a cross section of the region, the magnitude of the electric field should change at a rate of:

A) 5.0 V/m .s
B) 12 V/m .s
C) 37 V/m .s
D) 50 V/m .s
E) 4.0* 10⁷ V/m .s

Accepted Answer

According to Ampere's law, 
$\oint \vec{B} \cdot d\vec{l} = \mu_0 I_{enc}$, where 
$I_{enc} = \epsilon_0 \frac{d\Phi_E}{dt}$ is the enclosed displacement current.

For a cylindrical region of radius $r$ and length $L$, the left-hand side of the equation becomes $\oint \vec{B} \cdot d\vec{l} = B(2\pi r L)$. 
Setting $I_{enc} = 2.0	imes 10^{-7}$ A, we can solve for the required rate of change of the electric field: 
$\frac{dE}{dt} = \frac{c^2}{\mu_0} \cdot \frac{I_{enc}}{\pi r^2}$
Substituting $r = 1.2$ m, $c=3.0	imes 10^8$ m/s, and $\mu_0 = 4\pi	imes 10^{-7}$ Tm/A, we get 
$\frac{dE}{dt} = \frac{(3.0	imes 10^8)^2}{4\pi	imes 10^{-7}} \cdot \frac{2.0	imes 10^{-7}}{\pi (1.2)^2} \approx 50$ V/m/s. 
Therefore, the correct answer is D.

Question 11

A magnetic field exists between the plates of a capacitor:&#10;A) always&#10;B) never&#10;C) when the capacitor is fully charged&#10;D) while the capacitor is being charged&#10;E) only when the capacitor is starting to be charged

Accepted Answer

The answer of A magnetic field exists between the plates...

Question 12

An electric field exists in the cylindrical region shown and is parallel to the cylinder axis. The magnitude of the field might vary with time according to any of the four graphs shown. Rank the four variations according to the magnitudes of the magnetic field induced at the edge of the region, least to greatest.

A) 2, 4, 3, 1
B) 3 and 4 tie, then 1,2
C) 4, 3, 2, 1
D) 4, 3, 1, 2
E) 2, 1, 3, 4

Accepted Answer

The answer of An electric field exists in the cylindrical...

Question 13

According to Gauss' law for magnetism, magnetic field lines:&#10;A) form closed loops&#10;B) start at south poles and end at north poles&#10;C) start at north poles and end at south poles&#10;D) start at both north and south poles and end at infinity&#10;E) do not exist

Accepted Answer

The answer of According to Gauss' law for magnetism, magnetic...

Question 14

Maxwell's great contribution to electromagnetic theory was his hypothesis that: A) work is required to move a magnetic pole through a closed path surrounding a current B) a time-varying electric flux acts as a current for purposes of producing a magnetic field C) the speed of light could be determined from simple electrostatic and magnetostatic experiments (finding the values of$\mu$₀ and ) D) the magnetic force on a moving charge particle is perpendicular to both E) magnetism could be explained in terms of circulating currents in atoms

Accepted Answer

The answer of Maxwell's great contribution to electromagnetic theory was...

Question 15

Suppose you are looking into one end of a long cylindrical tube in which there is a uniform electric field, pointing away from you. If the magnitude of the field is decreasing with time the field lines of the induced magnetic field are:

A) circles
B) ellipses
C) straight lines parallel to the electric field
D) straight lines perpendicular to the electric field
E) none of the above

Accepted Answer

The answer of Suppose you are looking into one end...

Question 16

A 0.70-m radius cylindrical region contains a uniform electric field that is parallel to the axis and is increasing at the rate 5.0 * 10¹² V/m . s. The magnetic field at a point 0.25 m from the axis has a magnitude of:

A) 0
B) 7.0 * 10^-⁶ T
C) 2.8 * 10^-⁵ T
D) 5.4 * 10^-⁵ T
E) 7.0* 10^-⁵ T

Accepted Answer

The answer of A 0.70-m radius cylindrical region contains a...

Question 17

A sinusoidal emf is connected to a parallel plate capacitor. The magnetic field between the plates is:&#10;A) 0&#10;B) constant&#10;C) sinusoidal and its amplitude does not depend on the frequency of the source&#10;D) sinusoidal and its amplitude is proportional to the frequency of the source&#10;E) sinusoidal and its amplitude is inversely proportional to the frequency of the source

Accepted Answer

The answer of A sinusoidal emf is connected to a...

Question 18

The statement that magnetic field lines form closed loops is a direct consequence of:&#10;A) Faraday's law&#10;B) Ampere's law&#10;C) Gauss' law for electricity&#10;D) Gauss' law for magnetism&#10;E) the Lorentz force

Accepted Answer

The answer of The statement that magnetic field lines form...

Question 19

Gauss' law for magnetism tells us:&#10;A) the net charge in any given volume&#10;B) that the line integral of a magnetic field around any closed loop must vanish&#10;C) the magnetic field of a current element&#10;D) that magnetic monopoles do not exist&#10;E) charges must be moving to produce magnetic fields

Accepted Answer

The answer of Gauss' law for magnetism tells us:&#10;A) the...

Question 20

Suppose you are looking into one end of a long cylindrical tube in which there is a uniform electric field, pointing away from you. If the magnitude of the field is decreasing with time the direction of the induced magnetic field is:

A) toward you
B) away from you
C) clockwise
D) counterclockwise
E) to your right

Accepted Answer

The answer of Suppose you are looking into one end...

Question 21

Displacement current exists wherever there is:&#10;A) a magnetic field&#10;B) moving charge&#10;C) a changing magnetic field&#10;D) an electric field&#10;E) a changing electric field

Accepted Answer

The answer of Displacement current exists wherever there is:&#10;A) a...

Question 22

Two of Maxwell's equations contain an integral over a closed surface. For them the infinitesimal vector area   is always:&#10;A) tangent to the surface&#10;B) perpendicular to the surface and pointing outward&#10;C) perpendicular to the surface and pointing inward&#10;D) tangent to a field line&#10;E) perpendicular to a field line

Accepted Answer

The answer of Two of Maxwell's equations contain an integral...

Question 23

Two of Maxwell's equations contain a path integral on the left side and an area integral on the right. Suppose the area is the surface of a piece of paper at which you are looking and is chosen to point toward you. Then, the path integral is:

A) clockwise around the circumference of the paper
B) counterclockwise around the circumference of the paper
C) from left to right
D) from right to left
E) from top to bottom

Accepted Answer

The answer of Two of Maxwell's equations contain a path...

Question 24

Which of the following equations can be used, along with a symmetry argument, to calculate the magnetic field of a long straight wire carrying current?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E) none of these

Accepted Answer

The answer of Which of the following equations can be...

Question 25

A 1-$\mu$F capacitor is connected to an emf that is increasing uniformly with time at a rate of 100 V/s. The displacement current between the plates is: A) 0 B) 1 * 10^-⁸ A C) 1 *10^-⁶ A D) 1 * 10^-⁴ A E) 100 A

Accepted Answer

The answer of A 1-$\mu$F capacitor is connected to an...

Question 26

One of the Maxwell equations begins with .... The "o" symbol in the integral sign means: A) the same as the subscript in $\mu$₀ B) integrate clockwise around the path C) integrate counterclockwise around the path D) integrate around a closed path E) integrate over a closed surface

Accepted Answer

The answer of One of the Maxwell equations begins with...

Question 27

One of the crucial facts upon which the Maxwell equations are based is:&#10;A) the numerical value of the electron charge&#10;B) charge is quantized&#10;C) the numerical value of the charge/mass ratio of the electron&#10;D) there are three types of magnetic materials&#10;E) none of the above

Accepted Answer

The answer of One of the crucial facts upon which...

Question 28

Which of the following equations, along with a symmetry argument, can be used to calculate the magnetic field between the plates of a charging parallel plate capacitor with circular plates?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E) none of these

Accepted Answer

The answer of Which of the following equations, along with...

Question 29

Displacement current is: A) d$\phi$ _E/dt B) $\varepsilon$₀d$\phi$ _E/dt C) $\mu$₀d$\phi$ _E/dt D) $\mu$₀$\varepsilon$₀d$\phi$ _E/dt E) -d$\phi$ _B/dt

Accepted Answer

The answer of Displacement current is: A) d$\phi$ _E/dt B) $\varepsilon$₀d$\phi$ _E/dt C)...

Question 30

Two of Maxwell's equations contain a path integral on the left side and an area integral on the right. Suppose the area is the surface of a piece of paper at which you are looking and is chosen to point toward you. Then, the path integral is:

A) clockwise around the circumference of the paper
B) counterclockwise around the circumference of the paper
C) from left to right
D) from right to left
E) from top to bottom

Accepted Answer

The answer of Two of Maxwell's equations contain a path...

Question 31

Which of the following equations, along with a symmetry argument, can be used to calculate the magnetic field produced by a uniform time-varying electric field?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E) none of these

Accepted Answer

The answer of Which of the following equations, along with...

Question 32

Which of the following equations can be used to show that magnetic field lines form closed loops?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E) none of these

Accepted Answer

The answer of Which of the following equations can be...

Question 33

Two of Maxwell's equations contain a path integral on the left side and an area integral on the right. Suppose the area is the surface of a piece of paper at which you are looking and is chosen to point toward you. Then, the path integral is:

A) clockwise around the circumference of the paper
B) counterclockwise around the circumference of the paper
C) from left to right
D) from right to left
E) from top to bottom

Accepted Answer

The answer of Two of Maxwell's equations contain a path...

Question 34

Consider the four Maxwell equations:   Which of these must be modified if magnetic poles are discovered?&#10;A) only I&#10;B) only II&#10;C) only II and III&#10;D) only III and IV&#10;E) only II, III, IV

Accepted Answer

The answer of Consider the four Maxwell equations:  ...

Question 35

Which of the following equations, along with a symmetry argument, can be used to calculate the electric field produced by a uniform time-varying magnetic field?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E) none of these

Accepted Answer

The answer of Which of the following equations, along with...

Question 36

One of the Maxwell equations begins with   .... The symbol &#34;   &#34; means:&#10;A) an infinitesimal displacement of a charge&#10;B) an infinitesimal displacement of a magnetic pole&#10;C) an infinitesimal inductance&#10;D) an infinitesimal surface area&#10;E) none of the above

Accepted Answer

The answer of One of the Maxwell equations begins with...

Question 37

Displacement current exists in the region between the plates of a parallel plate capacitor if:&#10;A) the capacitor leaks charge across the plates&#10;B) the capacitor is being discharged&#10;C) the capacitor is fully charged&#10;D) the capacitor is fully discharged&#10;E) none of the above are true

Accepted Answer

The answer of Displacement current exists in the region between...

Question 38

A current of 1 A is used to charge a parallel plate capacitor with square plates. If the area of each plate is 0.6 m² the displacement current through a 0.3 m² area wholly between the capacitor plates and parallel to them is:

A) 1 A
B) 2 A
C) 0.7 A
D) 0.5 A
E) 0.25 A

Accepted Answer

The answer of A current of 1 A is used...

Question 39

One of the Maxwell equations begins with .... The "o" symbol in the integral sign means: A) the same as the subscript in $\mu$₀ B) integrate clockwise around the path C) integrate counterclockwise around the path D) integrate around a closed path E) integrate over a closed surface

Accepted Answer

The answer of One of the Maxwell equations begins with...

Question 40

Which of the following equations can be used, along with a symmetry argument, to calculate the electric field of a point charge?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E) none of these

Accepted Answer

The answer of Which of the following equations can be...

Question 41

If an electron has zero orbital angular momentum, the magnitude of its magnetic dipole moment equals:&#10;A) zero&#10;B) half the Bohr magneton&#10;C) a Bohr magneton&#10;D) twice a Bohr magneton&#10;E) none of these

Accepted Answer

The answer of If an electron has zero orbital angular...

Question 42

A bar magnet is placed vertically with its S pole up and its N pole down. Its   field at its center is:&#10;A) zero&#10;B) down&#10;C) up due to the weight of the magnet&#10;D) horizontal&#10;E) slightly below the horizontal

Accepted Answer

The answer of A bar magnet is placed vertically with...

Question 43

The diagram shows the spin angular momentum vectors of two electrons and two protons in the same external magnetic field. The field points upward in the diagram. Rank the situations according to the potential energy, least to greatest.

A) 1 and 3 tie, then 2 and 4 tie
B) 2 and 3 tie, then 1 and 4 tie
C) 1 and 2 tie, then 3 and 4 tie
D) 3 and 4 tie, then 1 and 2 tie
E) all tie

Accepted Answer

The answer of The diagram shows the spin angular momentum...

Question 44

The spin magnetic dipole moment of an electron:&#10;A) is in the same direction as the spin angular momentum&#10;B) is zero&#10;C) has an magnitude that depend on the orbital angular momentum&#10;D) has a magnitude that depends on the applied magnetic field&#10;E) none of the above

Accepted Answer

The answer of The spin magnetic dipole moment of an...

Question 45

If an electron has an orbital angular momentum with magnitude L the magnitude of the orbital contribution to its magnetic dipole moment is given by:&#10;A) eL/m&#10;B) eL/2m&#10;C) 2eL/m&#10;D) mL/e&#10;E) mL/2

Accepted Answer

The answer of If an electron has an orbital angular...

Question 46

A positively charged ion, due to a cosmic ray, is headed through Earth's atmosphere toward the center of Earth. Due to Earth's magnetic field, the ion will be deflected:&#10;A) south&#10;B) north&#10;C) west&#10;D) east&#10;E) not at all since it is a charge and not a pole

Accepted Answer

The answer of A positively charged ion, due to a...

Question 47

Magnetic dipole X is fixed and dipole Y free to move. Dipole Y will initially:  &#10;A) move toward X but not rotate&#10;B) move away from X but not rotate&#10;C) move toward X and rotate&#10;D) move away from X and rotate&#10;E) rotate but not translate

Accepted Answer

The answer of Magnetic dipole X is fixed and dipole...

Question 48

The magnetic field lines due to an ordinary bar magnet:&#10;A) form closed curves&#10;B) cross one another near the poles&#10;C) are more numerous near the N pole than near the S pole&#10;D) leave the S pole, loop around the outside of the magnet, and enter the N pole&#10;E) none of the above

Accepted Answer

The answer of The magnetic field lines due to an...

Question 49

If is the orbital angular momentum of an electron, the magnetic dipole moment associated with its orbital motion: A) is in the direction of and has magnitude proportional to L B) is opposite to the direction of and has magnitude proportional to L C) is in the direction of and has magnitude proportional to L² D) is opposite to the direction of and has magnitude proportional to L² E) does not depend on

Accepted Answer

The answer of If   is the orbital angular...

Question 50

Maxwell's equations, along with an appropriate symmetry argument, can be used to calculate:&#10;A) the electric force on a given charge&#10;B) the magnetic force on a given moving charge&#10;C) the flux of a given electric field&#10;D) the flux of a given magnetic field&#10;E) none of these

Accepted Answer

The answer of Maxwell's equations, along with an appropriate symmetry...

Question 51

Magnetic dipole X is fixed and dipole Y free to move. Dipole Y will initially:  &#10;A) move toward X but not rotate&#10;B) move away from X but not rotate&#10;C) move toward X and rotate&#10;D) move away from X and rotate&#10;E) rotate but not move toward or away from X

Accepted Answer

The answer of Magnetic dipole X is fixed and dipole...

Question 52

The intrinsic magnetic dipole moments of protons and neutrons are much less than that of an electron because:&#10;A) their masses are greater&#10;B) their angular momenta are much less&#10;C) their angular momenta are much greater&#10;D) their charges are much less&#10;E) their radii are much less

Accepted Answer

The answer of The intrinsic magnetic dipole moments of protons...

Question 53

The energy of a magnetic dipole in an external magnetic field is least when:&#10;A) the dipole moment is parallel to the field&#10;B) the dipole moment is antiparallel to the field&#10;C) the dipole moment is perpendicular to the field&#10;D) none of the above (the same energy is associated with all orientations)&#10;E) none of the above (no energy is associated with the dipole-field interaction)

Accepted Answer

The answer of The energy of a magnetic dipole in...

Question 54

A bar magnet is broken in half. Each half is broken in half again, etc. The observation is that each piece has both a north and south pole. This is usually explained by:&#10;A) Ampere's theory that all magnetic phenomena result from electric currents&#10;B) our inability to divide the magnet into small enough pieces&#10;C) Coulomb's law&#10;D) Lenz' law&#10;E) conservation of charge

Accepted Answer

The answer of A bar magnet is broken in half....

Question 55

An electron traveling with speed v around a circle of radius r is equivalent to a current of:&#10;A) evr/2&#10;B) ev/r&#10;C) ev/2 $\pi$r&#10;D) 2 $\pi$er/v&#10;E) 2 $\pi$ev/r

Accepted Answer

The answer of An electron traveling with speed v around...

Question 56

The magnetic field of Earth is roughly the same as that of a magnetic dipole with a dipole moment of about: A) 10¹⁷ J/T B) 10¹⁹ J/T C) 10²¹ J/T D) 10²³ J/T E) 10²⁵ J/T

Accepted Answer

The answer of The magnetic field of Earth is roughly...

Question 57

The polarity of an unmarked magnet can be determined using:&#10;A) a charged glass rod&#10;B) a compass&#10;C) an electroscope&#10;D) another unmarked magnet&#10;E) iron filings

Accepted Answer

The answer of The polarity of an unmarked magnet can...

Question 58

A small bar magnet is suspended horizontally by a string. When placed in a uniform horizontal magnetic field, it will:&#10;A) translate in the direction of  &#10;B) translate in the opposite direction of  &#10;C) rotate so as to be at right angles to  &#10;D) rotate so as to be vertical&#10;E) none of the above

Accepted Answer

The answer of A small bar magnet is suspended horizontally...

Question 59

Of the following places one would expect that the horizontal component of the Earth's magnetic field to be largest in:&#10;A) Maine&#10;B) Florida&#10;C) Maryland&#10;D) New York&#10;E) Iowa

Accepted Answer

The answer of Of the following places one would expect...

Question 60

The diagram shows two small diamagnetic spheres, one near each end of a bar magnet. Which of the following statements is true?  &#10;A) The force on 1 is toward the magnet and the force on 2 is away from the magnet&#10;B) The force on 1 is away from the magnet and the force on 2 is away from the magnet&#10;C) The forces on 1 and 2 are both toward the magnet&#10;D) The forces on 1 and 2 are both away from the magnet&#10;E) The magnet does not exert a force on either sphere

Accepted Answer

The answer of The diagram shows two small diamagnetic spheres,...

Question 61

Magnetization vectors in neighboring ferromagnetic domains are:&#10;A) always in opposite directions&#10;B) always in the same direction&#10;C) always in different directions&#10;D) sometimes in different directions and sometimes in the same direction&#10;E) sometimes in opposite directions and sometimes in the same direction

Accepted Answer

The answer of Magnetization vectors in neighboring ferromagnetic domains are:&#10;A)...

Question 62

The molecular theory of magnetism can explain each of the following EXCEPT:&#10;A) an N pole attracts a S pole&#10;B) stroking an iron bar with a magnet will magnetize the bar&#10;C) when a bar magnet is broken in two, each piece is a bar magnet&#10;D) heating tends to destroy magnetization&#10;E) hammering tends to destroy magnetization