2. Electricity

Question 1

What direction is ‘electron flow’ in?

Answer 1

Opposite direction of the conventional current

Question 2

What is charge?

Answer 2

The electrons that are always in a wire - whether connected to a cell or not

Question 3

What is current?

Answer 3

The flow of electrons in a conductor - when it’s connected to a cell in a complete circuit

Question 4

What is current measured in?

Answer 4

Amps (A)

Question 5

What is voltage?

Answer 5

The push and pull of electrons in a wire - makes electrons flow

Question 6

What is voltage measured in?

Answer 6

Volts

Question 7

What is electrical energy?

Answer 7

Energy carried by current and converted to heat and light energy

Question 8

Is the current the same all the way round in series?

Answer 8

Yes

Question 9

Why do electrical charges move through metals?

Answer 9

They have some electrons that are free to move from their atoms

Question 10

What is an electric current?

Answer 10

A movement of charge

Question 11

What is electrolysis?

Answer 11

When current flows in a liquid, carried by positive and negative ions

Question 12

What happens when electrical current flows through a resistor?

Answer 12

Electrical energy is transformed into heat energy

Question 13

What does the energy transferred depend on?

Answer 13

Amount of charge carried by electrons and p.d. Pushing the charge around

Question 14

What charge do electrons have?

Answer 14

Negative

Question 15

What is the unit for power?

Answer 15

Watt (W)

Question 16

What happens to power as current increases?

Answer 16

Increases

Question 17

What happens to a lamp when there is lower resistance?

Answer 17

the lamp is brighter

Question 18

What do electrons have to do when passing through a wire?

Answer 18

Push their way through vibrating electrons

Question 19

What does the resistance in a circuit do?

Answer 19

Limit the current

Question 20

Ohms law?

Answer 20

The current through a resistor at a constant temperature is directly proportional to the potential difference across the resistor

Question 21

What is the p.d. of cells?

Answer 21

The sum of the p.d. of each cell

Question 22

In a series circuit…

Answer 22

• the same current passes through the components
• the p.d. of the voltage supply is shared between the components
• the total resistance of components is equal to the sum of the resistance of each component

Question 23

In a parallel circuit…

Answer 23

• the total current through the whole circuit is the sum of the currents through the separate components
• the p.d. across each branch is the same

Question 24

Is the voltage across each branch in parallel the same?

Answer 24

Yes

Question 25

What happens to current as resistance of a filament lamp increases?

Answer 25

Increases

Question 26

What does a current - p.d. graph with a straight line show?

Answer 26

The resistance is constant, obeying Ohm’s law.

Question 27

An example of an ohmic conductor?

Answer 27

A wire

Question 28

What does a current - p.d. graph with a curve show?

Answer 28

The resistance isn’t constant, it increases as the temperature increases.

Question 29

What does a current - p.d. graph with a forward/reverse bias show?

Answer 29

The resistance is not constant, it rapidly decreased and the current increases

Question 30

What component will make a forward bias?

Answer 30

Diode

Question 31

What component will make a curve?

Answer 31

Filament lamp

Question 32

What component will make a straight line?

Answer 32

A wire

Question 33

What happens to resistance as light intensity increases?

Answer 33

It increases

Question 34

What is static electricity?

Answer 34

When charge builds up on an object and doesn’t move e.g. rubbing a rod

Question 35

What will happen when two different rods are held close to each other?

Answer 35

They will attract if they have different charge

Question 36

What happens to materials that are oppositely charged?

Answer 36

They attract

Question 37

What will happen when two rods of the same material are held close to each other?

Answer 37

They will repel as they have the same charge

Question 38

What happens to materials that have the same charge?

Answer 38

They will repel each other

Question 39

Are electrostatic forces contact or non-contact?

Answer 39

Non-contact forces that can act at a distance

Question 40

What is an electric field?

Answer 40

The region where a charged object would experience a force

Question 41

How is an electric field represented?

Answer 41

Using field lines

Question 42

What does the direction of a field line show?

Answer 42

The direction of the force that would act on a small positive charge at that point

Question 43

What does the spacing of field lines show?

Answer 43

The strength of the force.

The closer together the lines, the stronger the force

Question 44

What is a uniform field?

Answer 44

A field for a force that has a constant size

Question 45

What direction do field lines point when an object is positively charged?

Answer 45

Field lines point outwards because like charges repel

Question 46

What direction do field lines point when an object is negatively charged?

Answer 46

Field lines point inwards because unlike charges attract

Question 47

What happens to field lines as you move away from the charged object?

Answer 47

Field lines spread out as you move away, so the force becomes weaker

Question 48

How does a ‘Van de Graff’ generator work?

Answer 48

A charge builds up on the dome due to electrons being rubbed off by the belt. If charge is big enough then the voltage comes high enough to ionise the air molecules so electrons jump down to earth = electric current

Question 49

Dangers with static electricity when refuelling?

Answer 49

Fuel gains electrons from pipe so pipe is positive and fuel negative. Resulting voltage may cause a spark.

Question 50

What is direct current?

Answer 50

Current travels in one direction

Question 51

An example of direct current?

Answer 51

Simple circuit

Question 52

What is an alternating current?

Answer 52

Current repeatedly reversed its direction

Question 53

What measures the waves of an alternating current?

Answer 53

Oscilloscope

Question 54

What current do cells and batteries alway supply?

Answer 54

Direct current which always passes in the same direction

Question 55

What type of supply is mains electricity?

Answer 55

a.c. supply

Question 56

What is the voltage of the live wire in an alternating current?

Answer 56

Alternates between +325V and -325V = 230V d.c.

Question 57

What is the frequency of the mains a.c. in the U.K.?

Answer 57

50Hz

Question 58

What is a metal wire made up of?

Answer 58

A lattice of positive ions, surrounded by delocalised electrons

Question 59

What happens to electrons when a wire is attached to the battery?

Answer 59

The free electrons are repelled by the negative terminal and attracted to the positive one

Question 60

What direction is electron flow?

Answer 60

Opposite to the direction of the conventional current

Question 61

How often do electrons change direction in an a.c. circuit?

Answer 61

Every 0.01 seconds

Question 62

How does a mains-powered appliance gets its energy if the electrons do not travel all the way from the power source?

Answer 62

The power sources causes all electrons in a circuit loop to vibrate at once; energy is transferred from electrons to appliance

Question 63

Why is the casing of a plug made from plastic?

Answer 63

Because it doesn’t conduct, it’s a good insulator

Question 64

What is the casing of a plug made from?

Answer 64

Plastic

Question 65

What do cables contain?

Answer 65

Copper wires

Question 66

Why do cables contain copper wires?

Answer 66

Because copper is a good conductor

Question 67

How is copper arranged in a wire?

Answer 67

The copper is made into lots of thin strands twisted together rather than one thick wire as this makes the cables more flexible

Question 68

What are the pins in a plug made from?

Answer 68

Brass

Question 69

Why are the pins in a cable made from brass?

Answer 69

It is a good conductor, it is stiff and does not corrode unlike copper

Question 70

Where is the fuse in a plug?

Answer 70

Between the live pin and the live wire

Question 71

What does the fuse do?

Answer 71

If current gets too high the fuse melts and breaks the circuit, cutting off the live wire

Question 72

Which pin is the longest in a plug?

Answer 72

The earth pin

Question 73

Why is the earth pin the longest in a plug?

Answer 73

To make contact with the earth wire of the socket, before contact with the live wire

Question 74

What colour is the live wire?

Answer 74

Brown

Question 75

What does the live wire do?

Answer 75

Alternates between +325V and -325V which is equivalent to a 230V d.c.

Question 76

What colour is the neutral wire?

Answer 76

Blue

Question 77

What does a neutral wire do?

Answer 77

Completes the circuit

Question 78

What colour is the earth wire?

Answer 78

Yellow/green

Question 79

What does the earth wire do?

Answer 79

Prevents the appliance becoming ‘live’

Question 80

What type of cables are less likely to overheat?

Answer 80

Thick cables

Question 81

What will thin wires be used for?

Answer 81

Lighting

Question 82

What will thick wires be used for?

Answer 82

Electric cookers

Question 83

What thickness of wire is used when?

Answer 83

Thin wires will be used for lower currents whereas thicker wires will be used for higher currents

Question 84

How is the amount of power for an object altered when connected to the mains electricity?

Answer 84

Current will be altered

Question 85

Describe a circuit when a wire has short-circuited one out of three bulbs

Answer 85

• the resistance of the wire is almost zero
• current flows through wire instead of lamp 1
• current passes through two bulbs
• loop is smaller and current is higher
• bulbs are brighter

Question 86

Describe a circuit when a wire has short-circuited three bulbs

Answer 86

• all 3 bulbs switch off
• wire gets very hot
• resistance of loops is zero
• current is a lot higher
• wire overheats

Question 87

What is a short circuit?

Answer 87

An electrical circuit that allows current to travel along unintended paths with no or very low resistance

Resistance low = current very high

Question 88

Describe the resistance and the current in a short circuit

Answer 88

No or very low resistance, very high current

Question 89

Why do lamps blow when they have just been turned on?

Answer 89

The lamp is cold so low resistance, high current flows - sometimes enough to melt the wire in the bulb

Question 90

What happens to resistance as you add components in a series circuit?

Answer 90

more components = more resistance

Question 91

What happens to resistance as you add components in a parallel circuit?

Answer 91

more components = less resistance

Question 92

What unit do electrical companies bill customers in?

Answer 92

Kilowatt hours (kWh)

Question 93

What is 1 kWh?

Answer 93

The energy delivered when a 1kW device is used for 1 hour

Question 94

What is 1 kWh equal to in J?

Answer 94

3.6 million J

Question 95

What does the cost of using a particular device depend on?

Answer 95

How fast it uses electrical energy (the power of the device) and how long it’s being used for

Question 96

What does a fuse contain?

Answer 96

A thin wire that heats up and melts if too much current passes through it

Question 97

What happens when a fuse ‘blows’?

Answer 97

The thin wire inside the fuse heats up and melts when too much current passes through it

Question 98

What happens if the current rating is too large?

Answer 98

The fuse will not blow when it should, and the heating effect could cause a fire in the appliance

Question 99

What size fuse are domestic appliances often fitted with?

Answer 99

3, 5 or 13A

Question 100

How do you work out which fuse to use for a particular appliance?

Answer 100

Need to know the power rating and working p.d. of the device so that you can calculate its working current

Question 101

When are earth wires used?

Answer 101

If the appliance has a metal case

Question 102

What happens when the live wire touches the case, in terms of the earth wire?

Answer 102

The large current surges down the earth wire and the fuse blows

Question 103

What happens if a fuse doesn’t blow because of incorrect rating?

Answer 103

The current will flow down the earth wire and the user won’t be electrocuted by touching the case

Question 104

What is the National Grid?

Answer 104

A network of transporters and power lines which ensure electricity is carried to where it is needed

Question 105

What happens to heat loss as current increases?

Answer 105

It increases

Question 106

What happens to voltage at the start of the national grid in power stations?

Answer 106

The voltage is ‘stepped-up’ (increased) using a transformer

Question 107

Why is voltage increased to transfer energy across the national grid?

Answer 107

Increasing the voltage reduces the current in the power lines which reduces energy in the cables, and heat energy produced

Question 108

What happens to voltage at the consumer end of the national grid?

Answer 108

Transformers ‘step-down’ voltage to safer levels

Question 109

Advantages of overhead cables?

Answer 109

Cheap to install and repair

High, out of reach

Question 110

Advantages of underground cables?

Answer 110

Out of sight

Safe from weather conditions

Question 111

Disadvantages of overhead cables?

Answer 111

Unattractive

More likely to get damaged in storms

Question 112

Disadvantages of underground cables?

Answer 112

Not as far from people e.g. digging roads

Expensive - digging tunnels

Difficult to know where they are when repairing

Question 113

What is the voltage from a power station before it is stepped up?

Answer 113

20 kV

Question 114

What is the voltage after it’s been stepped up?

Answer 114

400 kV

Question 115

What is the voltage after it’s been stepped down?

Answer 115

230 V

Question 116

What is a thermistor affected by?

Answer 116

A change in temperature

Question 117

What is an LDR affected by?

Answer 117

A change in light intensity

Question 118

Practically, how could you change the resistance of a thermistor?

Answer 118

Use different temperatures of water

Question 119

Practically, how could you change the resistance of a LDR?

Answer 119

Alter the distance between LDR and light source

Question 120

In a thermistor, what is the link between resistance and temperature?

Answer 120

Resistance increases as temperature decreases

Question 121

In a LDR, what is the link between resistance and light intensity?

Answer 121

Resistance increases as light intensity decreases

Question 122

What is the graph of a thermistor at a constant temperature? What does this mean for the resistance?

Answer 122

A straight line so its resistance is constant

Question 123

What is the graph of a LDR at a constant LI? What does this mean for the resistance?

Answer 123

A straight line so its resistance is constant

Question 124

What happens when temperature is increased in a circuit with a thermistor?

Answer 124

Resistance decreases. Current increased so a component may be turned on

Question 125

What happens when LI is increased in a circuit with a LDR?

Answer 125

Resistance decreases. Current increased so a component may be turn on

Question 126

What are thermistors and LDRs examples of?

Answer 126

Ohmic conductors

Question 127

In a potential divider, what happens to voltage when two resistors are equal?

Answer 127

They share applied voltage equally

Question 128

In a potential divider, a current passes through a resistor then through a thermistor. How is output voltage increased?

Answer 128

The thermistor cools. The resistance of the thermistor rises, taking a larger share of input voltage - so output voltage rises

Question 129

In a potential divider, a current passes through a thermistor then through a resistor. How is output voltage increased?

Answer 129

Temperature of the thermistor is increased and resistance decreases. The resistor takes a larger share of the input voltage - increasing the output

Question 130

In a potential divider, a current passes through a resistor then through a LDR. How is output voltage increased?

Answer 130

LI decreases, resistance increases, taking a larger share of the input voltage. So output voltage rises.

Question 131

What is power?

Answer 131

The rate at which energy is transformed

Question 132

Another phrase for energy transferred?

Answer 132

Work done