1. Energy

Question 1

What are the nine types of energy?

Answer 1

Kinetic, sound, light, thermal, electrical, gravitational potential, elastic potential (strain), chemical, nuclear

Question 2

What are the two ways that energy can be transferred?

Answer 2

From place to place or from one form into another

Question 3

What is ‘waste energy’?

Answer 3

Energy that is transformed to either the wrong place or the wrong form

Question 4

What is ‘useful energy’?

Answer 4

The energy transformed to where it is wanted in the form wanted

Question 5

What is an efficient device?

Answer 5

A device where most of the energy is usefully transformed

Question 6

What form is waste energy nearly always in?

Answer 6

Heat energy given to the surroundings

Question 7

Equation for efficiency?

Answer 7

Useful energy given out by device / energy put in x100

Question 8

What is work done equal to?

Answer 8

Energy transferred

Question 9

Equation for work done?

Answer 9

Work done = force x distance in direction of force

Question 10

What is the rate at which energy is transformed?

Answer 10

Power

Question 11

When is work done?

Answer 11

When any object is moved around ie energy is supplied

Question 12

Equation for power?

Answer 12

Power = energy / time taken

Question 13

What is 1 watt equal to?

Answer 13

1 Joule per second

Question 14

What do you pay for when you pay for electricity?

Answer 14

The energy transferred

Question 15

Equation for kinetic energy?

Answer 15

Ek=1/2mv²

Question 16

Equation for gravitational potential energy?

Answer 16

Ep=mgh

Question 17

How to calculate weight?

Answer 17

Mass x gravitational field strength

Question 18

How to calculate a change in kinetic energy?

Answer 18

Ek=1/2mv²-1/2mu²

Question 19

What is change in kinetic energy equal to?

Answer 19

Work done and kinetic energy transferred

Question 20

Equation for elastic potential energy?

Answer 20

Ee=1/2ke²

Question 21

Why does a compression still act like an extension?

Answer 21

The same amount of energy is stored

Question 22

What is internal energy?

Answer 22

The energy stored by the particles of a substance

Question 23

What is internal energy a sum of?

Answer 23

The kinetic energy of all the particles and the potential energy of all the particles due to their relative positions and forces between them

Question 24

What does internal energy not include?

Answer 24

Gravitational potential energy or the kinetic energy caused by motion of the whole substance

Question 25

What is the average kinetic energy of the molecules related to?

Answer 25

The temperature of a gas

Question 26

What happens to kinetic energy if the temperature of a substance is increased?

Answer 26

The total kinetic energy of the particles increases and so the internal energy increased

Question 27

What is latent heat?

Answer 27

The energy transferred to or from a substance when it changes state

Question 28

What happens to the temperature during change of state?

Answer 28

The temperature is constant, so the total kinetic energy of particles does not change

Question 29

What happens to the energy of particles when a substance melts or boils?

Answer 29

The total potential energy of the particles increased because energy is needed to break the bonds

Question 30

What is happening when a substance is heating?

Answer 30

• temperature increases
• kinetic energy increases
• potential energy is constant
• internal energy increases

Question 31

What is happening when a substance is changing state?

Answer 31

• temperature is constant
• kinetic energy is constant
• potential energy increases
• internal energy increases

Question 32

What factors affect how much energy must be gained by an object as its temperature increases?

Answer 32

• temperature increase
• mass
• material

Question 33

What is specific heat capacity?

Answer 33

The amount of energy required to raise 1kg of a material by 1c

Question 34

What is the specific heat capacity of water?

Answer 34

4200 J/kg*c

Question 35

What is the specific heat capacity of copper?

Answer 35

390 J/kg*c

Question 36

What is the equation for specific heat capacity?

Answer 36

Specific heat capacity = energy / mass x temperature change

Question 37

Why is the filling of a pie hotter than the crust?

Answer 37

The pastry and filling have the same temperature however the filling contains water and has a higher specific heat capacity so transfers more heat energy

Question 38

What is latent heat measured in?

Answer 38

Joules per kilogram

Question 39

What is the specific latent heat of fusion (lf)?

Answer 39

The energy needed to change state of 1kg of the substance from solid to liquid

Question 40

What is the specific latent heat of vaporisation (lv)?

Answer 40

The energy needed to change the state of 1kg of the substance from liquid to gas

Question 41

How to work out specific latent heat?

Answer 41

Latent heat = energy / mass

Question 42

What is specific latent heat measured in?

Answer 42

J/kg

Question 43

How can heat be transferred?

Answer 43

Conduction, convection and radiation

Question 44

What direction does thermal energy travel in?

Answer 44

Hot to cold

Question 45

What is conduction?

Answer 45

Particles that are very close together can transfer heat energy as they vibrate

Question 46

Which is the method of heat transfer in solids?

Answer 46

Conduction

Question 47

How do non-metals conduct?

Answer 47

As a non-metal is heated at one end, the atoms near the heat source gain kinetic energy and vibrate more and collide with each other so the energy is passed on

Question 48

How do metal conduct?

Answer 48

When a metal is heated, free electrons gain kinetic energy so they move faster and diffuse through the metal - energy is transferred when electrons collide with other electrons or ions

Question 49

Why is the rate of energy transfer greater in copper than steel?

Answer 49

Copper a higher thermal conductivity

Question 50

What is the best insulator?

Answer 50

A vacuum

Question 51

Why can’t conduction occur in a vacuum?

Answer 51

There are no particles to collide and pass on the energy

Question 52

What do many insulating materials contain?

Answer 52

Pockets of trapped air

Question 53

Why is air a good insulator?

Answer 53

It is a gas and particles are too far apart to transfer energy effectively

Question 54

Why do steel pans have wood or plastic handles?

Answer 54

They do not get hot and burn your hand because they are made of material that cannot conduct heat so is an insulator

Question 55

Why is felt a better insulator than paper?

Answer 55

It has air pockets and air is a good insulator as it is a gas

Question 56

How to test different materials as insulators?

Answer 56

Fill 3 containers with boiling water, put a thermometer in each, wrap 3 different types of insulator and the hot water and measure temperature of each container in intervals

Question 57

Why are wood and fibre glass good insulators?

Answer 57

They have trapped air in pockets - air is a gas so a poor conductor

Question 58

Which are the best insulating materials?

Answer 58

The ones with the lowest thermal conductivity

Question 59

What are fluids?

Answer 59

Substances that can flow i.e. Liquids and gases

Question 60

What happens when fluid particles are heated?

Answer 60

They move around more and spread out

Question 61

What happens when a fluid is heated?

Answer 61

Becomes less dense - same number of particles take up more space

Question 62

How is wind an example of convection?

Answer 62

On a beach, the air above sand is heated, becomes less dense and rises. Cold air above the sea is sucked inland as wind

Question 63

How is a freezer an example of convection?

Answer 63

A freezer cools air at the top and cools food on the way down. Warmer air at the bottom rises and a convection current is set up inside the fridge

Question 64

Where can’t convection occur?

Answer 64

• in solids because particles are not free to flow

* in vacuums because there are no particles to flow and carry energy

Question 65

How does trapped air reduce heat loss by convection?

Answer 65

Convection causes heat to be lost through the roof - loft instillation helps to reduce this. Trapped air in fibre glass is not free to flow so this helps to prevent convection currents

Question 66

Where can energy be lost from in the home?

Answer 66

Through the roof, windows, floors, walls, doors and gaps

Question 67

How can energy loss be reduced through the roof?

Answer 67

Loft insulation

Question 68

How can energy loss be reduced through walls?

Answer 68

Cavity wall insulation

Question 69

How can energy loss be reduced through doors and gaps?

Answer 69

Draught excluders

Question 70

How can energy loss be reduced through floors?

Answer 70

Carpets

Question 71

How can energy loss be reduced through windows?

Answer 71

Curtains and double glazing

Question 72

What type of heat transfer does double glazing reduce?

Answer 72

Conduction

Question 73

What type of heat transfer does cavity wall insulation reduce?

Answer 73

Conduction and convection

Question 74

What type of heat transfer does loft insulation reduce?

Answer 74

Conduction and convection

Question 75

What type of heat transfer does foil behind radiators reduce?

Answer 75

Radiation

Question 76

What type of heat transfer does draught excluders reduce?

Answer 76

Convection

Question 77

What type of heat transfer do curtains reduce?

Answer 77

Convection (and radiation, conduction)

Question 78

What type of heat transfer do carpets reduce?

Answer 78

Conduction (and convection)

Question 79

How does double glazing reduce heat transfer?

Answer 79

2 layers so it is further for heat to travel

Air between glass which is a gas so a good insults

Question 80

How does cavity wall insulation reduce heat transfer?

Answer 80

2 layers so it is further for heat to travel

Air between walls which is a good insulator

Foam which has pockets of air which reduce flow in convection

Question 81

How does loft insulation reduce heat transfer?

Answer 81

Fibre glass has pockets of trapped air

Question 82

How does foil behind radiators reduce heat transfer?

Answer 82

Silver is a good reflector so heat from back radiator is reflected into room

Question 83

How do draught excluders reduce heat transfer?

Answer 83

Close gaps around doors and windows so air cannot flow through

Question 84

How do curtains reduce heat transfer?

Answer 84

Block gaps so air cannot flow through

Opaque so heat is not passed through

Question 85

How do carpets reduce heat transfer?

Answer 85

Made of insulating materials which have a lot of air between fibres

Question 86

What is payback time?

Answer 86

A way to calculate how cost effective types of insulation are. It is the time taken to save the money that it cost to buy

Question 87

How to calculate pay back time?

Answer 87

Payback time = cost of insulation/ annual saving

Question 88

What is a renewable energy resource?

Answer 88

One that can be replenished as it is used

Question 89

What are some types of renewable energy resources?

Answer 89

Tidal
Solar
Geothermal
Biofuel
Wind
Hydroelectric
Wave

Question 90

How does geothermal power work?

Answer 90

Hot rocks underground heat water to produce steam. Holes are drilled down to the hot region, steam comes up and used to drive turbines which drive electric generators

Question 91

Energy transformations in geothermal power?

Answer 91

Heat -> Kinetic -> Electrical

Question 92

Where can geothermal power stations be built?

Answer 92

Near hot reservoirs beneath the earth’s surface

Question 93

Advantages of geothermal power?

Answer 93

• No pollution
• Low running costs
• Don’t take up much room - no impact on environment

Question 94

Disadvantages of geothermal power?

Answer 94

• Difficult to find suitable sites for power stations
• Rocks have to be certain type and depth
• Rocks above have to be soft enough to drill through
• If not carefully managed a borehole can ‘run out of steam’ and not usable for decades
• Some dangerous gases and minerals come out of boreholes and are hard to dispose of

Question 95

How does wind power work?

Answer 95

The wind turns blades which tune a rotor shaft. The resultant mechanical power is used to drive an electricity generator

Question 96

Energy transformations in wind power?

Answer 96

Kinetic -> Electrical

Question 97

Where can wind power stations be built?

Answer 97

In windy places e.g. the sea

Question 98

Advantages of wind power?

Answer 98

• Dovetails with other systems
• Simple technology
• Once constructed, low running costs
• Occupied land can still be used for farming
• Cheap electricity
• Suitable for less sunny regions
• Safe, if properly maintained
• Plentiful wind supply
• No pollution

Question 99

Disadvantages of wind power?

Answer 99

• No wind = no power
• Wind farms create a constant low level noise
• Can interfere with TV and radar
• Aesthetically disturbing
• Small electricity production from each windmill

Question 100

How does wave power work?

Answer 100

Friction develops between air and water as wind blows across the water. Energy is transferred between the two elements. Taking the motion of the waves and translating it to mechanical/electrical energy generates energy from the waves

Question 101

Energy transformations in wave power?

Answer 101

Kinetic -> Electrical

Question 102

Where can wave power stations be built?

Answer 102

In the sea

Question 103

Advantages of wave power?

Answer 103

• No waste or pollution
• Wave energy generators can produce large amounts of energy
• Once constructed, low running costs

Question 104

Disadvantages of wave power?

Answer 104

• Can be noisy
• Must be able to withstand very rough weather
• Wave energy generators are only effective when exposed to strong waves
• May be a hazard to ships and leisure craft

Question 105

How does tidal power work?

Answer 105

A bay dammed with gates and turbines fitted along the length of the dam. Gates are opened to let the tide in and turn the turbines to produce electricity

Question 106

Energy transformations in tidal power?

Answer 106

Gravitational potential -> Kinetic -> Electric

Question 107

Where can tidal power stations be built?

Answer 107

In an estuary

Question 108

Advantages of tidal power?

Answer 108

• Amount of energy produced is predictable
• Low running costs
• No waste or pollution
• Reliable technology
• No fuel

Question 109

Disadvantages of tidal power?

Answer 109

• Early stages of development
• Only produced energy for 10 hours a day as tide moves in and out
• Expensive to install
• Few suitable places

Question 110

How does biofuel work?

Answer 110

1. Energy crops - plants grown specifically for fuel e.g. wood. Some crops are fermented to produce ethane
2. Waste - as material rots it gives off methane which is burnt to produce steam and turn a turbine

Question 111

Energy transformations in biofuel?

Answer 111

Chemical -> Heat -> Kinetic -> Electrical

Question 112

Where can biofuel power stations be built?

Answer 112

Fields or factories - waste underground

Question 113

Advantages of biofuel?

Answer 113

• Fuel is cheap
• Methane is a greenhouse gas and burning it would reduce the amount in the atmosphere
• Using waste material makes good environmental and economical sense

Question 114

Disadvantages of biofuel?

Answer 114

• Creating enough waste is difficult
• CO2 produced by bio-energy production
• Some waste materials not available all year round

Question 115

How does solar power work?

Answer 115

Sonar cells are devices that convert light energy into electrical energy directly.

Sonar water heating uses heat from the sun to heat water in glass panels on a roof. Water is pumped through pipes in the panel.

Sonar furnaces use mirrors to concentrate the sun’s energy and produce high temperatures

Question 116

Energy transformations in solar power?

Answer 116

Light -> Electrical

Question 117

Where can solar power stations be built?

Answer 117

On roofs

Question 118

Advantages of solar power?

Answer 118

• Safe
• Can generate energy in remote places
• Handy for low-power uses like garden lights
• Once constructed, low running costs

Question 119

Disadvantages of solar power?

Answer 119

• Doesn’t work at night
• Electricity produced is more expensive
• Energy has to be stored in batteries, hydrogen or water
• Can’t be used as the only system in cloudy places

Question 120

How does hydroelectric power work?

Answer 120

Flowing waters create energy that can be captured. When demand increases water is released back into a lower reservoir through a turbine. The water comes from behind a dam. The water drives electrical generators which may be built inside the dam

Question 121

Energy transformations in hydroelectric power?

Answer 121

Gravitational potential -> Kinetic -> Electrical

Question 122

Where can hydroelectric power stations be built?

Answer 122

Upland areas

Question 123

Advantages of hydroelectric power?

Answer 123

• No pollution

* Can produce electricity on demand

Question 124

Disadvantages of hydroelectric power?

Answer 124

• Fish cannot migrate upstream, or downstream to the ocean
• Can impact water quality and flow
• Can be impacted by drought

Question 125

What is a fuel?

Answer 125

A material that can be burnt to provide energy (light and heat)

Question 126

Energy transformation in a fuel?

Answer 126

Chemical -> Light + Heat

Question 127

How does coal form?

Answer 127

Coal formed when old plants from millions of years ago died and formed layers at the bottom of swamps, to form peat

Question 128

How do oil and natural gas form?

Answer 128

Oil and natural gas are formed when layers of sediment, plants and bacteria become buried and pressure is added over millions of years

Question 129

What are the fossil fuels?

Answer 129

Oil, natural gas and coal

Question 130

How do fossil fuels produce electricity?

Answer 130

The fuel is burned and heat produced boils water, creating high pressure which turns a turbine. The turbine turns a generator

Question 131

How does natural gas produce electricity?

Answer 131

It is burnt and the hot gases produced are used directly to turn a turbine

Question 132

What is the start up time of coal?

Answer 132

7 hours

Question 133

What is the start up time of oil?

Answer 133

4 hours

Question 134

What is the start up time of natural gas?

Answer 134

1 hour

Question 135

How long will coal last?

Answer 135

About 300 years

Question 136

How long will oil last?

Answer 136

About 45 years

Question 137

How long will gas last?

Answer 137

25-30 years

Question 138

Which fossil fuel creates the most pollution?

Answer 138

Coal

Question 139

Which fossil fuel creates the least pollution?

Answer 139

Natural gas

Question 140

What is the difference between first and second generation biofuels?

Answer 140

First generation have been derived from starches, sugars or animal fats

Second generation are derived from more advanced sources and are renewed as part of the carbon cycle

Question 141

What are the different types of biofuels?

Answer 141

Bioethanol, biodiesel, biomethane