Magnetism and Magnetic Induction

Question 1

The angular difference between true north and magnetic north is known as the ________

Answer 1

Angle of declination

Question 2

________ are magnets that do not require any power or force to maintain their field

Answer 2

Permanent magnets

Question 3

________ are metals that are easily magnetized, such as iron, nickel, and cobalt

Answer 3

Ferromagnetic materials

Question 4

________ are metals that can be magnetized, but not as easily as ferromagnetic materials

Answer 4

Paramagnetic materials

Question 5

True or false: diamagnetic materials are either metal or nonmetal materials that cannot be magnetized

Answer 5

True

Question 6

Name 3 examples of paramagnetic materials

Answer 6

Platinum, titanium, and chromium

Question 7

Name 4 examples of diamagnetic materials

Answer 7

Copper, brass, wood, and antimony

Question 8

Name 4 characteristics of magnetic lines of force

Answer 8

1. They form closed loops
2. They posses direction
3. They repel each other
4. They cannot intersect or cross
5. Magnetic lines of force represent tension along their length which tends to make them as short as possible

Question 9

Flux lines are ________ near the poles of a magnet and become ________ as they move further away

Answer 9

Stronger; weaker

Question 10

Complete the following: A basic law of physics states that whenever an electric current flows through a conductor, ________

Answer 10

A magnetic field is formed around the conductor

Question 11

________ depend on an electric current flow to produce a magnetic field

Answer 11

Electromagnets

Question 12

________ is a measure of a material’s ability to become magnetized

Answer 12

Permeability

Question 13

________ is the property that opposes magnetic flux

Answer 13

Reluctance

Question 14

________ occurs when all the molecules of the magnetic material are lined up

Answer 14

Saturation

Question 15

The amount of magnetism left in a material after the magnetizing force has stopped is called _________

Answer 15

Residual magnetism

Question 16

________ is the amount of magnetizing force necessary to remove residual magnetism from a material

Answer 16

Coercive force

Question 17

________ is the lagging of the flux density behind the magnetizing force

Answer 17

Hysteresis

Question 18

When looking at a material’s magnetization curve (hysteresis loop), curves that are tall and narrow are best suited for ________

Answer 18

Electromagnets. A tall and narrow magnetization loop indicates that the material has a high permeability and low retentivity value

Question 19

A wide and relatively flat curve on a B-H graph indicates that the material would be well suited for use as a ________

Answer 19

Permanent magnet. A wide and flat curve indicates that the material has a high level of residual magnetism (retentivity) and would require a strong coercive force to remove this magnetism

Question 20

________ refers to the amount of energy lost due to the constant reversal of the magnetic field in an AC circuit

Answer 20

Hysteresis loss

Question 21

Early natural magnets were known as ________

Answer 21

Lodestones

Question 22

True or false: The direction of current flow through the wire determines the polarity of the magnetic field

Answer 22

True

Question 23

Name 3 methods used to demagnetize an object

Answer 23

Placing the object in an AC magnetic field and pulling it away, striking it, and heating it (Curie temperature)

Question 24

In order for a material to lose it’s magnetism by heat, it must reach a certain temperature known as ________

Answer 24

Curie temperature

Question 25

True or false: a piece of magnetized material has its molecules in a state of disarray

Answer 25

False. This describes a non-magnetized material. Magnetized materials have their molecules aligned in an orderly pattern

Question 26

A helically wound coil that produces a strong magnetic field is known as a ________

Answer 26

Solenoid

Question 27

What is the easiest and most practical method for varying the strength of an electromagnet

Answer 27

Vary the current. Increasing the current will strengthen the electromagnet, decreasing the current will weaken it

Question 28

A device known as a ________ is used when storing magnets to help prevent their magnetic field from weakening over time

Answer 28

Keeper

Question 29

________ is a term that refers to the path along which flux lines follow as they form their complete loops

Answer 29

Magnetic circuit

Question 30

________ refers to the total number of flux lines in a magnetic circuit

Answer 30

Magnetic flux (Q)

Question 31

Current in an electrical circuit is the equivalent of ________ in a magnetic circuit

Answer 31

Magnetic flux (Q)

Question 32

The ________ is the unit of magnetic flux and is equal to ________ flux lines

Answer 32

Weber, abbreviated as Wb; 10 to the power of 8 (100,000,000)

Question 33

________ is the force that causes the setting up of flux lines in a magnetic circuit

Answer 33

Magnetomotive force (Fm)

Question 34

The magnetomotive force in a magnetic circuit is equal to ________

Answer 34

The number of coil turns in the circuit times the current through the coils (Fm = N x I)

Question 35

The ________ is the unit of magnetomotive force

Answer 35

Ampere-turn, abbreviated as A.t.

Question 36

________ is the opposition to the setting up of flux lines in a magnetic circuit

Answer 36

Reluctance (Rm)

Question 37

Resistance in an electrical circuit is the equivalent of ________ in a magnetic circuit

Answer 37

Reluctance (Rm)

Question 38

The ________ is the unit of reluctance

Answer 38

Ampere-turn per weber, abbreviated as A.t./Wb

Question 39

True or false: reluctance in a magnetic circuit increases as the length of the circuit increases, and decreases as the cross-sectional area of the circuit increases

Answer 39

True

Question 40

________ is the measure of the amount of flux per unit cross section of a magnetic circuit

Answer 40

Flux density (B)

Question 41

The ________ is the unit of flux density

Answer 41

Tesla, abbreviated as T

Question 42

________ is the measure of the magnetomotive force per unit length in a magnetic circuit

Answer 42

Magnetizing force (H)

Question 43

The ________ is the unit of magnetizing force

Answer 43

Ampere-turn per metre, abbreviated as A.t./m

Question 44

________ is the measure of the ease with which flux may be set up in a unit length and cross section of a material

Answer 44

Permeability (U)

Question 45

The ________ is the unit of permeability

Answer 45

Weber per ampere-turn metre, or Henries per metre, abbreviated as Wb/A.t.m. or H/m

Question 46

The permeability of free space (air) is ________

Answer 46

4 pi x 10 to the power of -7

Question 47

When a coil is wound around a nonmagnetic material such as wood or plastic, it is know as a(n) ________. When a coil is wound around a magnetic material such as iron or soft steel, it is known as a(n) ________

Answer 47

Air-core magnet; iron-core magnet

Question 48

Like residual magnetism, another term that is used to describe a material’s ability to retain magnetism is ________

Answer 48

Retentivity

Question 49

Complete the following statement: whenever a conductor cuts through magnetic lines of flux, ________

Answer 49

A voltage is induced in the conductor

Question 50

Complete the following statement: the polarity of an induced voltage is determined by the ________

Answer 50

Polarity of the magnetic field in relation to the direction of movement

Question 51

The left-hand rule for current-carrying conductors states that the thumb points in the direction of ________ and the fingers indicate the direction of the ________

Answer 51

Electron flow (current); magnetic field

Question 52

The left-hand rule for current-carrying coils states that the thumb points to the ________ and the fingers indicate the __________

Answer 52

North pole; direction of electron flow (current)

Question 53

Name the 3 factors that determine the amount of voltage induced in a conductor

Answer 53

1. The number of turns of wire
2. The strength of the magnetic field (flux density)
3. The speed of the cutting action

Question 54

In order to induce 1 volt in a conductor, the conductor must cut ________ lines of magnetic flux in ________

Answer 54

100,000,000; 1 second (1 Wb per second)

Question 55

Lenz’s law states that an induced voltage or current ________

Answer 55

Opposes the motion that causes it

Question 56

True or false: inductors always oppose a change of current

Answer 56

True

Question 57

One volt is induced in a conductor when magnetic lines of flux are cut at a rate of ________

Answer 57

1 weber per second

Question 58

True or false: induced voltage is always opposite in polarity to the applied voltage

Answer 58

True

Question 59

Two conductors each carrying a current traveling in the same direction will create magnetic fields that ________ one another

Answer 59

Attract

Question 60

An exponential curve is divided into ________ time constants, with each being equal to ________ of some value

Answer 60

Five; 63.2%

Question 61

Inductance is measured in units called ________

Answer 61

Henrys (H)

Question 62

The amount of inductance an inductor will have is determined by the ________ and the ________

Answer 62

Number of turns of wire; physical construction of the coil

Question 63

According to Faraday’s law of induction, ________ are loops of electrical current induced within conductors by a changing magnetic field in the conductor

Answer 63

Eddy currents