Electromagnetic Induction Flashcards

1
Q

How is magnetic flux calculated?

A

Magnetic flux density x Perpendicular area

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2
Q

How do you calculate the effective flux through this coil?

A

Must take component of field perpendicular to surface

(Or component parallel to normal of surface)

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3
Q

How does the number of turns in a coil affect its flux?

A

Flux doesn’t change

But flux linkage increases

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4
Q

How do you find the flux linkage through this coil?

A

Must take component of field perpendicular to coil

(Or component parallel to normal of coil)

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5
Q

How do you induce an emf in this coil?

A

Moving the magnet in and out of the coil
Causes a change in flux linkage
(Faraday’s Law)

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6
Q

If the magnet is stationary why is there no emf induced?

A

Emf only induced if the flux linkage is changing

(Faraday’s Law)

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7
Q

Which way does the current act in this coil and why?

A

Current acts to create a magnetic field opposing the increase in flux linkage
(Tries to keep magnet from entering)

Due to Lenz’s law

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8
Q

Which way does the current act in this coil and why?

A

Current acts to create a magnetic field opposing the decrease in flux linkage
(Tries to keep magnet from leaving)

Due to Lenz’ law

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9
Q

Why does moving the magnet faster induce a larger emf?

A

The rate of change of flux linkage is greater

(Faraday’s law)

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10
Q

What is Faraday’s Law of electromagnetic induction?

A

The magnitude of the emf is proportional to the rate of change of flux linkage

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11
Q

What is Lenz’ law?

A

The direction of an induced emf tends to produce a current which opposes the
change causing it

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12
Q

Why can’t the current act in this direction?

A

The magnetic field produced attracts the magnet
Increasing its kinetic energy
Energy has been created out of nothing!!!

(Against Lenz’ law)

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13
Q

What is the right hand grip rule?

A

A current in a coil produces a magnetic field as shown

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14
Q

What is wrong here?

A

Flux linkage becomes negative when coil flips!!!

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15
Q

How is the induced emf related to the graph of flux linkage?

A

(From Faraday’s law)

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16
Q

What is the corresponding graph of induced emf?

A

emf = -ve gradient

17
Q

If the coil moves across the field at a constant speed what do the flux linkage and emf graphs looks like?

A

emf = -ve gradient

18
Q

How do you calculate the emf induced between the ends of this conducting bar moving across a magnetic field?

A
19
Q

When do you use Fleming’s Right Hand Rule

A

For generators!!!

20
Q

For the AC generator when is the max emf induced?

A

When change in flux linkage is max

(When flux linkage = 0)

21
Q

For the AC generator when is 0 emf induced?

A

When change in flux linkage is 0

(When flux linkage = max)

22
Q

What is the corresponding emf graph for the AC generator?

A
23
Q

How is the max induced emf calculated for the AC generator?

A
24
Q

How do you increase the max induced emf of the AC generator?

A

Increase any of the terms in the equation:

25
Q

How is the AC generator different to the DC motor?

A

Generator: Kinetic energy -> Electrical energy

(Motor: Electrical energy -> Kinetic energy)

Generator: Slip rings keep each side of coil connected to same side of circuit

(Motor: Commutator ring switch polarity every half cycle)