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Yr 13 Physics 07 - Electric And Magnetic Fields > Magnetic Fields > Flashcards

Magnetic Fields Flashcards

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1
Q

similar to how electric fields exert forces on charges, what do magnetic fields affect

A

poles

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2
Q

what is the definition of a magnetic field

A

a region of space that will cause a magnetic pole to feel a force

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3
Q

what do the field lines of a magnetic field show

A

the direction that a lone north pole will be pushed / attracted towards

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4
Q

using that knowledge, what direction are the magnetic field lines of a magnet with a north and south pole pointing towards

A
  • from the north pole to the south pole

- because the north pole would be attracted to the south pole

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5
Q

how are the directions of the field lines of magnetic fields similar to electric fields

A
  • similar to how the +ve charge has its field lines pointing outwards and a -ve charge has its own inwards
  • the north pole has its lines pointing outwards and thes south pole has its lines pointing inwards
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6
Q

what is the other name for magnetic field lines

A

lines of magnetic flux

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7
Q

what do closer magnetic fields lines indicate

A

a stronger magnetic field

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8
Q

what is magnetic flux density

A
  • the strength of a magnetic field

- measured by the ratio of magnetic flux to the area it is passing through (literally just density)

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9
Q

what is the symbol and unit for magnetic flux density

A
  • symbol = B

- unit = Tesla (T)

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10
Q

what do the field lines of a typical magnet with a north and south pole look like

A
  • curved lines travelling and pointing from the north to the south pole
  • these lines connect with the outer side of the bases
  • the inner base (face) of the north pole has closer lines that point outwards (still curving out)
  • while the inner base of the south pole has closer lines that point inwards (still curving out)
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11
Q

what is the important rule you need to remember when drawing magnetic field lines of magnets, other than the directions

A
  • that all the lines originate and connect from the faces of the north and south pole
  • basically no lines are touching / connected to the long side of the rectangle
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12
Q

if you were to try and pick up a paperclip with a magnet, where would the clip ‘prefer’ to be picked up of, geometrically speaking in terms of the magnet, and why

A
  • the clip would prefer to be attracted to one the end of the magnet (the north / south pole faces)
  • because the magnetic field is stronger at those ends
  • signified by the closer lines of magnetic flux on the faces
  • so it would be attracted to those ends the most compared to any other side
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13
Q

what is the symbol and unit for flux

A
  • the symbol is a capital sigma (not the summation sigma, the “Io” sigma)
  • the units are weber (Wb)1
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14
Q

what does the measurement of flux indicate (remember definition of magnetic flux)

A

the strength of the effect of a given field

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15
Q

what is the equation for flux

A

Bsin0 * A

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16
Q

what are the variables in the equation for flux

A
  • B = flux density

- A = area

17
Q

why is the sin theta there

A

because you should only be taking the component of the flux density that is perpendicular to the area

18
Q

what would the equation be if the magnetic flux was in one uniform direction and at 90 degrees to the area

A
  • it would simply be perpendicular to the area
  • in other words, sin90 = 1
  • so the equation simplifies to flux = BA
19
Q

what is the more general name for magnetic flux density

A

magnetic field strength

20
Q

interactions between magnetic fields and charged particles / conductors allow motors to operate. practically speaking, between a single strand of wire and a coil of wire which is used

A

a coil of wire

21
Q

why is it ineffective to use a single strand of wire

A
  • when magnetic flux is made to interact with the wire,

- the effect on a single strand is too small

22
Q

what is the effect of using a coil of wire rather than a strand

A
  • if the wire is coiled up, the field can interact with each turn on the coil
  • meaning if you have n number of coils
  • the effect that would be on one strand would be multiplied n times
23
Q

what is the definition of flux linkage

A

the amount of magnetic flux interacting with a coil of wire

24
Q

what are the two equations for flux linkage

A
  • flux linkage = N * flux
  • as flux = BA
  • flux linkage = BAN

Yr 13 Physics 07 - Electric And Magnetic Fields (14 decks)

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