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IB Physics HLD.4 InductionQuestion Bank

Question A6

[Maximum number: 4]

A6. This question is about electromagnetic induction.
(a) State Lenz's law.
(b) Two identical aluminium balls are dropped simultaneously from the same height. Ball P falls through a region with no magnetic field. Ball Q falls through a region of uniform horizontal magnetic flux density B.

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Explain why ball Q takes longer than ball P to reach the ground.
This section consists of four questions: B1, B2, B3 and B4.

Question 2

[Maximum number: 5]

There is a proposal to power a space satellite X as it orbits the Earth. In this model, X is connected by an electronically-conducting cable to another smaller satellite Y .

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Question 2(c)

(a)

The cable between the satellites cuts the magnetic field lines of the Earth at right angles.

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Explain why satellite X becomes positively charged.

[ 3 ]

Question 2(e)

(b)

The magnetic field strength of the Earth is 31μ T31 \mu \mathrm{~T} at the orbital radius of the satellites. The cable is 15 km in length. Calculate the emf induced in the cable.

[ 2 ]

Question 18

[Maximum number: 1]

A magnet oscillates above a solenoid as shown.

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The magnet is displaced vertically and released from its highest position at time t=0. Which graph shows the variation with time t of the current I in the resistor?

A
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B
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C
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D
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Question 20

[Maximum number: 1]

Faraday's law of electromagnetic induction states that the electromotive force (emf) induced in a conductor is proportional to

A

the change of magnetic flux density.

B

the change of magnetic flux linkage.

C

the rate of change of magnetic flux density.

D

the rate of change of magnetic flux linkage.

Question 20

[Maximum number: 1]

A flat coil with N turns has a cross-sectional area A. The coil has a flux density of B in a direction of 9090^{\circ} to the plane of the coil.

What is the magnetic flux linkage?

A

0

B

B A

C

N B

D

N B A

Question 20

[Maximum number: 1]

An aircraft with a wing span of 50 m flies horizontally at a speed of 200 ms1200 \mathrm{~ms}^{-1}. The vertical component of the Earth's magnetic field at the plane's position is 10μ T10 \mu \mathrm{~T}.

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What electromotive force (emf) is induced between points A and B on the aircraft?

A

0.1 V0.1 \mathrm{~V}

B

1 V1 \mathrm{~V}

C

10 V

D

100 V

Question 4

[Maximum number: 2]

A metal rod is pulled along two horizontal conducting rails X and Y so that it rolls to the right at a constant speed. The two rails are connected by a straight conducting wire of Length L=0.60 mL=0.60 \mathrm{~m}. The system is in a region of uniform magnetic field of magnitude B=1.2 TB=1.2 \mathrm{~T} directed into the page.

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Question 4(a)

(a)

As a result of the motion, the metal rod experiences a magnetic force of 0.084 N .

[ 2 ]

Question 4(a)(iv)

(i)

Outline how Lenz's law applies to this system.

[ 2 ]

Question 21

[Maximum number: 1]

The graph shows the variation with time of a magnetic flux passing through a loop of wire.

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What is the magnitude of the emf induced in the coil?

A

The area between the graph and the time axis

B

The area between the graph and the magnetic flux axis

C

The gradient of the graph

D

The inverse of the gradient of the graph

Question 5

[Maximum number: 4]

This question is about induced electromotive force (emf).

Question 5(a)

(a)

A loop of copper wire in a region of uniform magnetic field is rotated about a horizontal axis.

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The magnitude of the magnetic field strength is B and the area of the loop is A.

[ 4 ]

Question 5(a)(i)

(i)

State the minimum value and the maximum value of the magnetic flux linking the loop.

Minimum value:
Maximum value:

[ 1 ]

Question 5(a)(ii)

(ii)

Outline with reference to Faraday's law why, if the speed of rotation of the loop is increased, the maximum emf induced in the loop is increased.

[ 3 ]

Question 23

[Maximum number: 1]

A length of copper wire PQ is moved downwards through the poles of two horizontal bar magnets as shown below.

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Compared to end Q , end P will have

A

fewer electrons.

B

more electrons.

C

fewer protons.

D

more protons.

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