Question 1

A long wire is known to have a radius greater than 4.0 mm and to carry a current uniformly distributed over its cross section.If the magnitude of the magnetic field is 0.285 mT at a point 4.0 mm from the axis of the wire and 0.200 mT at a point 10 mm from the axis, what is the radius of the wire?

A)4.6 mm
B)7.1 mm
C)5.3 mm
D)12 mm
E)10 mm

5.3 mm

Accepted Answer

We can use the formula for the magnetic field of a current-carrying wire:

$B = \frac{\mu_0 I}{2\pi r}$

where $B$ is the magnetic field, $\mu_0$ is the permeability of free space, $I$ is the current, and $r$ is the distance from the axis of the wire.

For the first point, we have:

$0.285 	imes 10^{-3} = \frac{\mu_0 I}{2\pi (4.0 	imes 10^{-3})}$

For the second point, we have:

$0.200 	imes 10^{-3} = \frac{\mu_0 I}{2\pi (10 	imes 10^{-3})}$

Dividing these two equations, we get:

$\frac{0.285}{0.200} = \frac{4.0}{10}$

Simplifying, we get:

$1.425 = \frac{2}{5}$

Now we can solve for $r$:

$\frac{2\pi r}{\mu_0 I} = \frac{2}{5}$

$r = \frac{\mu_0 I}{5\pi} 	imes \frac{2}{2}$

$r = \frac{\mu_0 I}{5\pi} = \frac{(4\pi 	imes 10^{-7})(I)}{5\pi}$

$r = 0.8 	imes 10^{-6} I$

Plugging in the values for the magnetic field at each point, we can solve for $I$:

$0.285 	imes 10^{-3} = \frac{(4\pi 	imes 10^{-7})(I)}{2\pi (4.0 	imes 10^{-3})}$

$I = 283.5$ A

$0.200 	imes 10^{-3} = \frac{(4\pi 	imes 10^{-7})(I)}{2\pi (10 	imes 10^{-3})}$

$I = 125.7$ A

Taking the average current, we get:

$I_{avg} = \frac{283.5 + 125.7}{2} = 204.6$ A

Finally, we can calculate the radius:

$r = 0.8 	imes 10^{-6} (204.6) = 0.16488$ mm $\approx$ $5.3$ mm

Therefore, the answer is (C) 5.3 mm.

Question 2

If a = 2.0 cm, b = 5.0 cm, and I = 20 A, what is the magnitude of the magnetic field at the point P?  &#10;A)4.5 $\mu$T&#10;B)7.5 $\mu$T&#10;C)9.0 $\mu$T&#10;D)6.0 $\mu$T&#10;E)3.6 $\mu$T

Accepted Answer

6.0 $\mu$T&#10;

Question 3

A long solenoid (diameter = 5.0 cm) is wound with 960 turns per metre of thin wire through which a current of 300 mA is maintained.A wire carrying 12 A is inserted along the axis of the solenoid.What is the magnitude of the magnetic field at a point 2.0 cm from the axis?

A)0.41 mT
B)0.48 mT
C)0.38 mT
D)0.56 mT
E)0.24 mT

0.38 mT

Accepted Answer

0.38 mT

Question 4

Two long parallel wires carry unequal currents in the same direction.The ratio of the currents is 3 to 1.The magnitude of the magnetic field at a point in the plane of the wires and 10 cm from each wire is 4.0 $\mu$ T.What is the larger of the two currents?

A)5.3 A
B)3.8 A
C)4.5 A
D)3.0 A
E)0.5 A

Accepted Answer

The answer of Two long parallel wires carry unequal currents...

Question 5

Each of two long straight parallel wires separated by a distance of 16 cm carries a current of 20 A in the same direction.What is the magnitude of the resulting magnetic field at a point that is 10 cm from each wire?

A)57

\mu

T
B)80

\mu

T
C)64

\mu

T
D)48

\mu

T
E)40

\mu

T

Accepted Answer

The answer of Each of two long straight parallel wires...

Question 6

A long straight wire carries a current of 40 A in a region where a uniform external magnetic field has a 30- $\mu$ T magnitude and is parallel to the current.What is the magnitude of the resultant magnetic field at a point that is 20 cm from the wire?

A)70

\mu

T
B)40

\mu

T
C)10

\mu

T
D)50

\mu

T
E)36

\mu

T

Accepted Answer

The answer of A long straight wire carries a current...

Question 7

A solenoid 4.0 cm in radius and 4.0 m in length has 8000 uniformly spaced turns and carries a current of 5.0 A.Consider a plane circular surface (radius = 2.0 cm) located at the centre of the solenoid with its axis coincident with the axis of the solenoid.What is the magnetic flux through this surface? (1 Wb = 1 T . m2)

A)63

\mu

Wb
B)16

\mu

Wb
C)0.25 mWb
D)10

\mu

Wb
E)5.0

\mu

Wb

Accepted Answer

The magnetic flux through a surface is given by
Φ = BA
where B is the magnetic field at the center and A is the area of the surface.

For a solenoid, the magnetic field at the center is given by
B = μ₀nI
where μ₀ is the permeability of free space, n is the number of turns per unit length, and I is the current.

Using the given values, we have
n = N/L = 8000/4 = 2000 turns/m
B = (4π×10⁻⁷ T•m/A)(2000 turns/m)(5 A) = 4×10⁻³ T

The area of the circular surface is A = πr² = π(0.02 m)² = 1.26×10⁻⁴ m²

Therefore, the magnetic flux through the surface is
Φ = BA = (4×10⁻³ T)(1.26×10⁻⁴ m²) = 5.04×10⁻⁷ Wb
or 16 μWb (since 1 Wb = 10⁶ μWb)

So the answer is B.

Question 8

A long hollow cylindrical conductor (inner radius = 2.0 mm, outer radius = 4.0 mm) carries a current of 12 A distributed uniformly across its cross section.A long wire which is coaxial with the cylinder carries an equal current in the same direction.What is the magnitude of the magnetic field 3.0 mm from the axis?

A)1.1 mT
B)1.4 mT
C)1.7 mT
D)2.0 mT
E)0.2 mT

Accepted Answer

Using Ampere's law, we can find the magnetic field at a distance of 3.0 mm from the axis:

$\oint \vec{B} \cdot d\vec{l} = \mu_0 I_{enc}$

Where $I_{enc}$ is the current enclosed by the Amperian loop. In this case, we can use a circular loop with radius 3.0 mm. The current enclosed by this loop is the sum of the current in the inner cylinder and the current in the outer cylinder:

$I_{enc} = I_{inner} + I_{outer} = \frac{\pi}{4}(4^2-2^2)(12 	ext{ A}) = 180\pi 	ext{ A}$

The magnetic field is constant along the loop and perpendicular to the direction of integration, so the dot product simplifies to $B 2\pi r$. Thus,

$B(2\pi r) = \mu_0 I_{enc}$

$B = \frac{\mu_0 I_{enc}}{2\pi r}$

Plugging in the values, we get

$B = \frac{(4\pi 	imes 10^{-7} 	ext{ T}\cdot	ext{m}/	ext{A})(180\pi 	ext{ A})}{2\pi (3.0 	ext{ mm})} \approx 1.1 	ext{ mT}$

Therefore, the answer is A.

Question 9

A 2.0-cm length of wire centred on the origin carries a 20-A current directed in the positive y direction.Determine the magnetic field at the point x = 5.0 m on the x-axis.&#10;A)1.6 nT in the negative z direction&#10;B)1.6 nT in the positive z direction&#10;C)2.4 nT in the negative z direction&#10;D)None of the above

Accepted Answer

Using the Biot-Savart law, we can find the magnetic field at point x = 5.0 m on the x-axis. The distance from the wire to the point on the x-axis is r = 5.0 m. The magnetic field is given by:

B = (μ0/4π) * I * ∫(dl × r̂)/r^2

where μ0 is the permeability of free space, I is the current, dl is an element of wire, r̂ is a unit vector in the direction of r, and the integral is taken over the length of the wire.

We can use cylindrical coordinates to simplify the calculation. Let the wire lie in the y-z plane, with dl = dŷ. Then, for a point on the x-axis at (x, 0, 0):

r = (x^2 + y^2 + z^2)^(1/2) = x
r̂ = x̂
dl × r̂ = -dŷ
r^2 = x^2

Substituting these into the formula for B, we get:

B = (μ0/4π) * I * ∫(-dŷ × x̂)/x^2

The integration is over the length of the wire, which goes from y = -1.0 cm to y = 1.0 cm. The cross product dl × r̂ is perpendicular to both dl and r̂, so it points in the -z direction. The unit vector in the -z direction is -ẑ. We can use the right-hand rule to find that dŷ × x̂ = -ẑ.

Therefore, the integral simplifies to:

B = (μ0/4π) * I * ∫ẑ/x^2 dy

Integrating over y gives:

B = (μ0/4π) * I * [ẑ/x^2 * (1.0 cm - (-1.0 cm))] = (μ0/4π) * I * ẑ/x^2 * 2.0 cm

Substituting the values, we get:

B = (4π×10^-7 Tm/A) * 20 A * (-ẑ)/0.05^2 m^2 * 0.02 m = -1.6 nT ẑ

The magnetic field is in the negative z direction, so the best choice is A).

Question 10

Three long wires parallel to the x axis carry currents as shown.If I = 20 A, what is the magnitude of the magnetic field at the origin?  &#10;A)37 $\mu$T&#10;B)28 $\mu$T&#10;C)19 $\mu$T&#10;D)47 $\mu$T&#10;E)58 $\mu$T

Accepted Answer

The answer of Three long wires parallel to the x...

Question 11

A hollow cylindrical (inner radius = 1.0 mm, outer radius = 3.0 mm) conductor carries a current of 80 A parallel to its axis.This current is uniformly distributed over a cross section of the conductor.Determine the magnitude of the magnetic field at a point that is 2.0 mm from the axis of the conductor.

A)8.0 mT
B)3.0 mT
C)5.3 mT
D)16 mT
E)1.2 mT

Accepted Answer

The answer of A hollow cylindrical (inner radius = 1.0...

Question 12

A hollow cylindrical (inner radius = 2.0 mm, outer radius = 4.0 mm) conductor carries a current of 24 A parallel to its axis.This current is uniformly distributed over a cross section of the conductor.Determine the magnitude of the magnetic field at a point that is 5.0 mm from the axis of the conductor.

A)0.96 mT
B)1.7 mT
C)0.55 mT
D)1.2 mT
E)0.40 mT

Accepted Answer

The answer of A hollow cylindrical (inner radius = 2.0...

Question 13

One long wire carries a current of 30 A along the entire x axis.A second long wire carries a current of 40 A perpendicular to the xy plane and passes through the point (0, 4, 0) m.What is the magnitude of the resulting magnetic field at the point y = 2.0 m on the y axis?

A)4.0

\mu

T
B)5.0

\mu

T
C)3.0

\mu

T
D)7.0 F

\mu

T
E)1.0

\mu

T

Accepted Answer

The answer of One long wire carries a current of...

Question 14

A segment of wire of total length 2.0 m is formed into a circular loop having 5 turns.If the wire carries a 1.2-A current, determine the magnitude of the magnetic field at the centre of the loop.&#10;A)79 $\mu$T&#10;B)69 $\mu$T&#10;C)59 $\mu$T&#10;D)89 $\mu$T&#10;E)9.4 $\mu$T

Accepted Answer

The answer of A segment of wire of total length...

Question 15

A straight wire (length = 8.0 m) is bent to form a square.If the wire carries a current of 20 A, what is the magnitude of the magnetic field at the centre of the square?&#10;A)17$\mu$T&#10;B)14 $\mu$T&#10;C)11 $\mu$T&#10;D)20 $\mu$T&#10;E)36 $\mu$T

Accepted Answer

The answer of A straight wire (length = 8.0 m)...

Question 16

In the figure, if a = 2.0 cm, b = 4.0 cm, and I = 2.0 A, what is the magnitude of the magnetic field at point P?  &#10;A)49 $\mu$T&#10;B)39 $\mu$T&#10;C)50 $\mu$T&#10;D)69 $\mu$T&#10;E)13 $\mu$T

Accepted Answer

The answer of In the figure, if a = 2.0...

Question 17

What is the magnitude of the magnetic field at point P if a = R and b = 2R?  &#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of What is the magnitude of the magnetic...

Question 18

A current-carrying 2.0-cm long segment of wire is inside a long solenoid (radius = 4.0 cm, n = 800 turns/m, current = 50 mA).The wire segment is oriented perpendicularly to the axis of the solenoid.If the current in the wire segment is 12 A, what is the magnitude of the magnetic force on this segment?

A)22

\mu

N
B)16

\mu

N
C)18

\mu

N
D)12

\mu

N
E)0

\mu

N

Accepted Answer

The answer of A current-carrying 2.0-cm long segment of wire...

Question 19

If a = 1.0 cm, b = 3.0 cm, and I = 30 A, what is the magnitude of the magnetic field at point P?  &#10;A)0.62 mT&#10;B)0.59 mT&#10;C)0.35 mT&#10;D)0.31 mT&#10;E)0.10 mT

Accepted Answer

The answer of If a = 1.0 cm, b =...

Question 20

The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I.What is the magnitude of the resulting magnetic field at the point P?

A)

<strong>The segment of wire (total length including portions of incoming and outgoing wire = 6R) is formed into the shape shown and carries a current I.What is the magnitude of the resulting magnetic field at the point P? </strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

The answer of The segment of wire (total length including...

Question 21

A long wire lies in a tangle on the surface of a table, as shown below.When a current is run through the wire as shown, the largest component of the magnetic field at X points:  &#10;A)into the table.&#10;B)out of the table.&#10;C)parallel to the nearest segment of wire.&#10;D)antiparallel to the nearest segment of wire.&#10;E)along a circle which has its centre at the centre of the overall loop.

Accepted Answer

The answer of A long wire lies in a tangle...

Question 22

At a point in space where the magnetic field is measured, the magnetic field produced by a current element:&#10;A)points radially away in the direction from the current element to the point in space.&#10;B)points radially in the direction from the point in space towards the current element.&#10;C)points in a direction parallel to the current element.&#10;D)points in a direction parallel to but opposite in direction to the current element.&#10;E)points in a direction that is perpendicular to the current element and perpendicular to the radial direction.

Accepted Answer

The answer of At a point in space where the...

Question 23

A solenoid consists of 100 circular turns of copper wire.Parts of 3 turns, A, B and C, are shown below.   When a current flows through the coil,&#10;A)both A and C are repelled by B.&#10;B)A is attracted to B; C is repelled by B.&#10;C)neither A nor C is attracted to or repelled by B.&#10;D)A is repelled by B; C is attracted to B.&#10;E)both A and C are attracted to B.

Accepted Answer

The answer of A solenoid consists of 100 circular turns...

Question 24

An ideal solenoid of radius a has n turns per unit length and current I.The magnetic flux $\phi$B through any area completely inside the solenoid, centred on the solenoid axis but at a 45$\degree$ angle to the axis, so that it touches the inside of the solenoid, as shown below, is:  &#10;A)  &#10;B)  &#10;C)($\mu$0 $\pi$a2nI.)&#10;D)2$\mu$0 $\pi$a2nI.&#10;E)0.

Accepted Answer

The answer of An ideal solenoid of radius a has...

Question 25

Which diagram correctly shows the magnetic field lines created by a circular current loop in which current flows in the direction shown?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Which diagram correctly shows the magnetic field...

Question 26

A thin infinitely large current sheet lies in the y-z plane.Current of magnitude Js per unit length along the z axis travels in the y-axis direction, which is up out of the page.Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?

A)

<strong>A thin infinitely large current sheet lies in the y-z plane.Current of magnitude Js per unit length along the z axis travels in the y-axis direction, which is up out of the page.Which diagram below correctly represents the direction of the magnetic field on either side of the sheet?</strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

The answer of A thin infinitely large current sheet lies...

Question 27

By using a compass to measure the magnetic field direction at various points adjacent to a long straight wire, you can show that the wire's magnetic field lines are:&#10;A)straight lines in space that go from one magnetic charge to another.&#10;B)straight lines in space that are parallel to the wire.&#10;C)straight lines in space that are perpendicular to the wire.&#10;D)circles that have their centres on the wire and lie in planes perpendicular to the wire.&#10;E)circles that have the wire lying along a diameter of the circle.

Accepted Answer

The answer of By using a compass to measure the...

Question 28

When the number of turns in a solenoid and its length are both doubled, the ratio of the magnitude of the new magnetic field inside to the magnitude of the original magnetic field inside is:&#10;A)0.25&#10;B)0.50&#10;C)1&#10;D)2&#10;E)4

Accepted Answer

The answer of When the number of turns in a...

Question 29

A conducting hollow cylinder (inner radius = a, outer radius = b) carries a current of 40 A that is uniformly distributed over the cross section of the conductor.If a = 3.0 mm and b = 6.0 mm, what is the magnitude of the (line) integral around a circular path (radius = 5.0 mm) centred on the axis of the cylinder and in a plane perpendicular to that axis?  &#10;A)50 $\mu$T . m&#10;B)30 $\mu$T .m&#10;C)22 $\mu$T . m&#10;D)37 $\mu$T . m&#10;E)47 $\mu$T . m

Accepted Answer

The answer of A conducting hollow cylinder (inner radius =...

Question 30

We find that N current loops are coplanar and coaxial.The first has radius a and current I.The second has radius 2a and current 2I, and the pattern is repeated up to the Nth, which has radius Na and current NI.The current in each loop is counter clockwise as seen from above.The magnitude of the magnetic field at the centre of the loops is:

A)

<strong>We find that N current loops are coplanar and coaxial.The first has radius a and current I.The second has radius 2a and current 2I, and the pattern is repeated up to the Nth, which has radius Na and current NI.The current in each loop is counter clockwise as seen from above.The magnitude of the magnetic field at the centre of the loops is:</strong> A) B) C) D) E) <div style=padding-top: 35px>

B)

C)

D)

E)

Accepted Answer

The answer of We find that N current loops are...

Question 31

On the average, in a ferromagnetic domain permanent atomic magnetic moments are aligned ____ to one another.&#10;A)antiparallel&#10;B)parallel&#10;C)perpendicular&#10;D)alternately parallel and antiparallel&#10;E)randomly relative

Accepted Answer

The answer of On the average, in a ferromagnetic domain...

Question 32

Equal currents of magnitude I travel out of the page in wires M and N.Eight directions are indicated by letters A through H.   The direction of the magnetic field at point P is:&#10;A)E.&#10;B)F.&#10;C)G.&#10;D)H.&#10;E)A.

Accepted Answer

The answer of Equal currents of magnitude I travel out...

Question 33

Equal currents of magnitude I travel into the page in wires M and N.Eight directions are indicated by letters A through H.   The direction of the magnetic field at point P is:&#10;A)B.&#10;B)C.&#10;C)D.&#10;D)E.&#10;E)F.

Accepted Answer

The answer of Equal currents of magnitude I travel into...

Question 34

The magnetic moment of an electron (charge = -e; mass = me) moving in a circular orbit of radius r with speed v about a nucleus of mass mN is proportional to:&#10;A)r.&#10;B)v.&#10;C)vr.&#10;D)evr.&#10;E)mNvr.

Accepted Answer

The answer of The magnetic moment of an electron (charge...

Question 35

A long solenoid (n = 1200 turns/m, radius = 2.0 cm) has a current of a 0.30 A in its winding.A long wire carrying a current of 20 A is parallel to and 1.0 cm from the axis of the solenoid.What is the magnitude of the resulting magnetic field at a point on the axis of the solenoid?

A)0.60 mT
B)0.85 mT
C)52

\mu

T
D)0.40 mT
E)0.75 mT

Accepted Answer

The answer of A long solenoid (n = 1200 turns/m,...

Question 36

A toroid is made of 2000 turns of wire of radius 2.00 cm formed into a donut shape of inner radius 10.0 cm and outer radius 14.0 cm.When a 30.0-A current is present in the toroid, the magnetic field at a distance of 11.0 cm from the centre of the toroid is:

A)0.0857 T.
B)0.109 T.
C)0.120 T.
D)0.600 T.
E)0.685 T.

Accepted Answer

The answer of A toroid is made of 2000 turns...

Question 37

An ideal solenoid of radius a has n turns per unit length and current I.The magnetic flux $\phi$B through any circular area of radius a inside the solenoid, centred on and perpendicular to the solenoid axis is:&#10;A)  &#10;B)  &#10;C)($\mu$0 $\pi$a2nI.)&#10;D)2$\mu$0 $\pi$a2nI.&#10;E)0.

Accepted Answer

The answer of An ideal solenoid of radius a has...

Question 38

Gauss's Law states that the net electric flux, , through any closed surface is proportional to the charge enclosed: .The analogous formula for magnetic fields is:    &#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Gauss's Law states that the net electric...

Question 39

A single circular (radius = R) loop of wire is located in the yz plane with its centre at the origin.The loop has a clockwise current as seen from the point (+R, 0, 0).The direction of the magnetic field at the point:

A)(0, 0, 0) is -i and at the point (+R, 0, 0) is -i.
B)(0, 0, 0) is -i and at the point (0, +2R, 0) is -i.
C)(0, 0, 0) is +i and at the point (+R, 0, 0) is +i.
D)(0, 0, 0) is +i and at the point (0, +2R, 0) is +i.
E)None of the above

Accepted Answer

The answer of A single circular (radius = R) loop...

Question 40

A 0.50-m long solenoid consists of 1000 turns of copper wire wound with a 4.0 cm radius.When the current in the solenoid is 18 A, the magnetic field at a point 1.0 cm from the central axis of the solenoid is:

A)0.090 mT.
B)0.36 mT.
C)23 mT.
D)36 mT.
E)45 mT.

Accepted Answer

The answer of A 0.50-m long solenoid consists of 1000...

Question 41

What current in a solenoid 15.0-cm long wound with 100 turns would produce a magnetic field equal to that of the Earth, 5.00 *10-5 T?

Accepted Answer

The answer of What current in a solenoid 15.0-cm long...

Question 42

When a ferromagnetic material that has been magnetised is brought to a temperature greater than the Curie temperature, what happens to its residual magnetism?&#10;A)Nothing happens to the residual magnetism.&#10;B)The residual magnetism disappears.&#10;C)The residual magnetism reaches its highest value.&#10;D)All the magnetic domains causing magnetism become a single domain.&#10;E)The material of the magnet melts causing currents that are magnetic.

Accepted Answer

The answer of When a ferromagnetic material that has been...

Question 43

A long solenoid (n = 80 turns/cm) carries a current of 70 mA.Determine the magnitude of the magnetic field inside the solenoid.

Accepted Answer

The answer of A long solenoid (n = 80 turns/cm)...

Question 44

A superconducting wire carries a current of 1.0 *104 A.Find the magnetic field at a distance of 1.0 m from the wire.

Accepted Answer

The answer of A superconducting wire carries a current of...

Question 45

The planetary model of the hydrogen atom consists of an electron in a circular orbit about a proton.The motion of the electron of charge 1.60 * 10-19 C creates an electric current.The radius of the electron orbit is 5.30 *10-11 m and the electron's velocity is 2.20 *106 m/s.What is the magnetic field strength at the location of the proton?

Accepted Answer

The answer of The planetary model of the hydrogen atom...

Deck 7: Magnetic Fields