Magnetic Fields Flashcards

1
Q

What 4 things do magnetic fields affect?

A
  1. Charges moving in the field
  2. Conductors with a current passing through
  3. Other magnets
  4. Magnetic materials
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2
Q

What do the field lines for a bar magnet look like?

A

Field lines always act North → South

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3
Q

What do the field lines look like between two opposite poles?

A

Field is uniform between the poles

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4
Q

What do the field lines look like between two like poles?

A
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5
Q

How are field lines represented ‘going into the page’?

A
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6
Q

How are field lines represented ‘coming out of the page’?

A
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7
Q

This conductor in a magnetic field has a current passing through

But doesn’t experience a force

Why?

A

Because it is parallel to the field lines

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8
Q

When do you use Fleming’s Left hand Rule?

A
  1. Looking at DC motors
  2. Looking at charges moving in a magnetic field
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9
Q

How do you calculate the force on a conductor placed at an angle in a magnetic field?

A

First use trigonometry to calculate the perpendicular component of its length

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10
Q

Why does the reading on the balance increase when a current runs through the conductor?

A

The magnetic field pushes up on the conductor

So the conductor pushes the magnets down (Newton’s 3rd Law)

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11
Q

How can you increase the mechanical energy produced by the DC motor?

A

Increase the torque by:

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12
Q

What do the commutator rings do in the DC motor?

A

Switch connections of the bars every 180°

So direct current is produced

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13
Q

What happens if the commutators are removed from the DC motor?

A

Force on each bar won’t change

So coil will reach equilibrium in vertical position

And won’t continue spinning

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14
Q

Why does an electron move in a circular path in a magnetic field?

A

Force from magnetic field perpendicular to velocity of electron

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15
Q

How do you apply Flemming’s left hand rule to a negative charge moving in a field?

A

Current acts opposite to the velocity

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16
Q

How do you apply Flemming’s left hand rule to a positive charge moving in a field?

A

Current acts in the same direction as the velocity

17
Q

When should you use each equation?

A

F=BIL on a conductor in a magnetic field (with current)

F=BQv on a charge in a magnetic field (moving)

18
Q

How do you calculate the radius of the orbit of a charge moving in a magnetic field?

A

Equate the magnetic and centripetal forces

19
Q

How do you explain the different curvatures of radiation () passing through a magnetic field?

A

Greater the specific chargeSmaller r (Bigger deflection)

20
Q

How do you calculate the speed of a charged particle accelerated through an electric field?

A
21
Q

How much work does a magnetic field do on a moving charge?

A

0J because the force and velocity vectors are perpendicular

So the charge does not increase its kinetic energy

22
Q

In a mass spectrometer how does the velocity selector work?

A

Unless an ion’s velocity = E/B, it will travel in a parabola and miss the gap

23
Q

In a mass spectrometer how does the mass separation work?

A

The ions have the same velocity (from the velocity selector)

So deflect by specific charge

24
Q

In a particle accelerator why are both magnetic and electric fields needed?

A
25
Q

In the cyclotron what is the purpose of the alternating current and magnetic field?

A

Alternating current → Electric Field between ‘Dees’ → Increases kinetic energy

Magneti Field → Moves particle in circular path in ‘Dees’ → Containing particle

26
Q

In the cyclotron why is the frequency of the alternating current constant?

A

As the charge speeds up → Travels further in each Dee → So takes same time

27
Q

How do you calculate the AC frequency of the cyclotron?

A

Note: f is independent of v

So the frequency is constant

28
Q

How is 1 Tesla defined?

A

The magnetic field that applies a force of 1N to a 1 metre conductor with a 1A current flowing perpendicular to the field (B=F/IL)