P7:Magnetism & Electromagnetism

Question 1

All magnets have two poles…

Answer 1

• North (or north seeking)

* South (or south seeking)

Question 2

All magnets produce a…

Answer 2

Magnetic field ( a region where other magnets or magnetic materials experience a non-contact force)

Question 3

You can show a magnetic field by drawing…

Answer 3

Magnetic field lines
Page 227
•Lines always go from north to south and they show which way the force
•The closer together the lines are, the stronger the magnetic field
•The further away from the magnet, the weaker the field is

Question 4

The magnetic field is always…

Answer 4

Strongest at the piles of the magnetic, meaning the magnetic forces are strongest at the poles

Question 5

The force between a magnet and magnetic material is…

Answer 5

Always attractive

Question 6

If two piles of a magnet are out near each other…

Answer 6

They will each exert a force in each other.

Question 7

An exerted Force can be…

Answer 7

Attractive or repulsive.

Question 8

Two poles which are the same will…

Answer 8

Repel each other

Question 9

Two unlike poles will…

Answer 9

Attract each other

Question 10

Inside a compass is a tiny bar magnet, the North Pole If this magnet is…

Answer 10

Attracted to the South Pole of any other magnet it’s near, the compass points in the direction of the magnetic field it is in

Question 11

You can move a compass around a magnet and…

Answer 11

Trace it’s position in some paper to build up a picture of what the magnetic field looks like

Question 12

When compasses aren’t near a magnet, they always point north because…

Answer 12

The earth generates its own magnetic field, which shows the inside (core) of the earth must be magnetic

Question 13

There are two types of magnets…

Answer 13

Permanent and induced

Question 14

Permanent magnets…

Answer 14

Produce their own magnetic field

Question 15

Induced magnets…

Answer 15

Are magnetic materials that turn into a magnet when they are out into a magnetic field

Question 16

The force between permanent and induced magnets are…

Answer 16

Always attractive

Question 17

When you take aways the magnetic field, induced magnets…

Answer 17

Quickly lose their magnetism (or most of it) and it stops producing a magnetic field

Question 18

When a current flows through a wire…

Answer 18

A magnetic field is created around the wire

Question 19

The field in a moving charge is made up of…

Answer 19

Concentric circles perpendicular to the wire, with the wire in the centre. You can see this by placing a compass near a wire that is carrying a current. As you move the compass, it will revise the direction of the magnetic field

Question 20

Changing the direction of the current changes…

Answer 20

The direction of the magnetic fields, use the right hand thumb rule to figure out which way it goes

Question 21

The right hand thumb rule…

Answer 21

Using your right hand, point your thumb in the direction of current and curl your fingers, the direction of your fingers is the direction of the field

Question 22

The strength of the magnetic field produces changes with the current and the distance from the wire…

Answer 22

The larger the current through the wire, or the closer to the wire you are, the stronger the field is

Question 23

You can increase the strength of the magnetic field that a wire produces by…

Answer 23

Wrapping the wire into a coil called a solenoid. This happens because the field lines around each loop of wire line up with each other

Question 24

The solenoid results in lots of field lines pointing in the same direction…

Answer 24

That a very close to each other, the closer the field lines are, the stronger the field is

Question 25

The magnetic field inside a solenoid is…

Answer 25

Stronger and uniform. It has the same strength and direction at every point in that region. Outside the coil, the magnetic field is just like the one around the bar magnet

Question 26

The ends of a solenoid act like the North Pole and South Pole If a bar magnet…

Answer 26

You can work out which end of the solenoid is the North Pole and which is the South Pole using the right hand rule

Question 27

You can increase the field strength of the solenoid even more by…

Answer 27

Putting a block of iron in the centre of the coil. The iron core becomes an induced magnet whenever current is flowing

Question 28

If you stop the current, the magnetic field disappears…

Answer 28

A solenoid with an iron core is called an electromagnet

Question 29

A solenoid with an iron core is a…

Answer 29

Magnet whose magnetic field can be turned on and off with an electric current. It consists of an insulated wire wrapped around an iron bar

Question 30

On an electromagnetic field, if you’re looking from a birds eye view if there’s a dot…

Answer 30

The current is going out of the page

Question 31

On an electromagnetic field, if you’re looking from a birds eye view if there’s a cross…

Answer 31

The current is going into the page

Question 32

The magnetic field lines around a wire are circles centres on the wire in a….

Answer 32

Plane perpendicular to the wire

Question 33

The magnetic field lines in the solenoid are parallel to its axis and are all in the same direction…

Answer 33

A uniform magnetic field is one which the magnetic field lines are parallel

Question 34

Increasing the current makes the magnetic field stronger, reversing…

Answer 34

The direction of the current reversed the magnetic field

Question 35

When a current carrying wire or any other conductor is put between magnetic poles, the magnetic friend around the wire…

Answer 35

Interacts with the magnetic field it has been place in. This causes the magnet and the conductor to exert a force in each other, this is called the motor effect

Question 36

The motor effect can cause…

Answer 36

The wire to move

Question 37

To experience the full force, the wire has to be 90 degrees to the magnetic field…

Answer 37

If the wire runs parallel to the magnetic field, it won’t experience any force at all. At angles in between, it will feel some force

Question 38

The force always acts at right angles to the magnetic field of the…

Answer 38

Magnets and the direction of the current in the wire

Question 39

A good way of showing the direction of the force is to apply a current…

Answer 39

To a set of rails inside a horse shoe magnet. A bar is placed on the rails, which completes the circuit. This generates a force that rolls the bar along the rails

Question 40

The magnitude of the force…

Answer 40

Increases the strength of the magnetic field

Question 41

The force also increases with the…

Answer 41

Amount of current passing through the conductor

Question 42

The force acting on a conductor in a magnetic field depends on…

Answer 42

• The magnetic flux density, how many field (flux) lines there are in the region. This shows the strength of the magnetic field
• This size of the current through the conductor
• The length of the conductor that’s in the magnetic field

Question 43

When the current is at 90 degrees to the magnetic field it is in….

Answer 43

The force acting on it can be found using the F = BIL equation

Question 44

F = B I L

Answer 44

Force (N) = magnetic flux density (T, Tesla) x current (A) x length (M)

Question 45

You can find the direction of this force with Flemings left-hand rule…

Answer 45

• Using your left hand, point your First finger in the direction of the magnetic Field
• Point your seCond finger in the direction of the Current
• Your thuMb will then point in the direction of the force/ Motion

Question 46

Flemings left hand tile shows that if either the current or the magnetic field is reversed…

Answer 46

Then the direction of the force will also be reversed, this can be used for all sorts of things like motors

Question 47

1) A basic dc motor, forces act on the two side arms of a coil of wire that’s carrying a current
2) These forces are just the usual forces which act on any current in a magnetic field, because the coil is on a spindle and the forces act one up and one down, it rotates
3) The split ring commutator is a clever way of swapping the contacts every half turn to keep the motor rotating in the same direction…

Answer 47

4) The direction of the motor can be reversed either by swapping the polarity if the dc supply (reversing the current) or swapping the magnetic poles over (reversing the field)
5) The speed of the motor can be increased by increasing the current, adding more turns to the coil for increasing the magnetic flux density
6) you can use Flemings left-hand rule to work out which way the coil would turn

Question 48

The optical density of a material is a measure of how quickly…

Answer 48

Light can travel through it, the higher the optical density, the slower light waves travels through it

Question 49

How much the wave is refracted by depends on how much the wave speeds up or slows down, which usually depends on…

Answer 49

The density of the two materials, for example the higher the density of a material, the slower a wave travels through it

Question 50

In a refracted light ray diagram, if the second material is optically denser than the first…

Answer 50

The refracted ray bends towards the normal, and the angle of refraction is smaller than the angle of incidence

Question 51

When transmitted radio waves reach the receiver, the radio waves are absorbed. The energy carried by the waves is transferred to the electrons in the material of the receiver…

Answer 51

This energy causes the electrons to oscillate and, if the receiver is part of a complete electrical circuit, it generates an alternating current. This current has the same frequency as the radio wave that generated it

Question 52

When a wave crosses a boundary at an angle, only part of a wave front crosses the boundary at first…

Answer 52

If it’s travelling into a fender material, that part travels slower than the rest of the wave front

Question 53

In a refracted light ray diagram, if the second material is less optically dense…

Answer 53

The angle of refraction is larger than the angle of incidence

Question 54

Rays are straight lines that are perpendicular to wave fronts…

Answer 54

They show the direction a wave is travelling in

Question 55

A wave front is a line showing all of the points on a wave that are…

Answer 55

In the same position as each other after a given number of wavelengths

Question 56

By the time the while wave front crosses the boundary, the faster pasty if the wave front will have travelled…

Answer 56

Further than the slower part of the wave front.

Question 57

When a wave crosses a boundary between…

Answer 57

Two materials it changes

Question 58

If the wave is travelling along the normal…

Answer 58

It will change speed, but it’s NOT refracted

Question 59

If the wave hits the boundary ay an angle…

Answer 59

It changes direction and is refracted

Question 60

The wave will bend towards the normal if…

Answer 60

It slows down

Question 61

The wave will bend away from the normal if…

Answer 61

It speeds up

Question 62

The frequency of the waves produced will be…

Answer 62

Equal to the frequency of the alternating current

Question 63

Alternating currents (ac) are made up of oscillating charges. As the charges oscillate…

Answer 63

They produce oscillating electric and magnetic fields

Question 64

EM waves are made up of…

Answer 64

Oscillating electric and magnetic fields

Question 65

It’s the difference in the distance travelled (caused by the difference in speed)…

Answer 65

By the wave front causers the wave to bend (refract)