Alternative energy - can be used instead of fossil fuels, usually renewable sources such as wind and power
Bio fuel – fuels from plants e.g. vegetable oil or poo! Coal – fossil fuel made from trees and plants
Energy efficiency – measures to reduce heat loss or the amount of energy needed to complete a task Fossil fuels – fuels produced by burning coal, oil and natural gas. They have taken millions of years to form and are thus not renewable e.g. oil, coal and natural gas Geothermal – energy from the heat under the ground in volcanic areas Hydro – electric power – energy produced by water Non-renewable – cannot be used again, only used once e.g. coal, oil, natural gas and nuclear Nuclear power – energy released from uranium and plutonium Proactive – thinking about how to solve problems before they happen rather than reacting to them after the event Reactive – reacting to something after it happens Renewable – can be used again e.g. wave, solar, water, wind, tidal, geothermal and bio fuels
1
Reserves – fuel supplies already discovered which could be used in the future Resources – any material or product that people find useful can be natural (climate, vegetation, minerals etc.) and human (labour, machinery, money etc.) Solar energy - -energy from the sun Sustainable – activities and economic growth with a good future because the environment upon which they depend is not being destroyed. It does not waste resources and looks after the needs of today without damaging resources for the future Thermal power station – electricity produced by heat from burning coal and oil to heat water which turns to steam to power a turbine which turns a generator to give electricity. The steam is then turned back to water in a cooling tower Transnational corporations – multinational companies or large businesses that have offices and factories all over the world with cheap labour and low productions costs in developing countries Urban development corporations (UDCs) – set up in 1981 to regenerate inner city area to improve conditions for people living there Wind farm – an area of modern windmills (turbines) used to produce energy
2
3
A DAY IN MY LIFE HOMEWORK
ENERGY I USE;
POWERCUT;
4
A DAY IN MY LIFE HOMEWORK
HOW CAN I SAVE ENERGY?;
5
LESSON 1; Pack p3,4 and 5; A day in my life DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
6
7
8
9
10
11
3. Now write a list, as long as you can but at least twenty
things that are made from oil; use the internet to help your
research.
12
LESSON 2; Pack p10, 11, 12 What are non-renewable and renewable resources? Exercises 1, 2 and 3, use Connections page 76 to help DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
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14
15
3 paragraphs homework
16
3 paragraphs homework
17
18
19
LESSON 3; Write 3 paragraphs, with diagrams
explaining how oil, coal and natural gas were formed, use the Educapole website etc. to help
DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
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21
UK ENERGY SOURCES 2012
6
Overall energy
Production of primary fuels, 1980 to 2012M
illio
n to
nnes
of o
il eq
uiva
lent
020406080
100120140160
Primaryelectricity
CoalNatural gasPrimary oil
1980 1990 2000 20122010 2011
Million tonnes of oil equivalent
1980 1990 2000 2010 2011 2012Petroleum 86.9 100.1 138.3 69.0 56.9 48.8Natural gas 34.8 45.5 108.4 57.2 45.3 38.9Coal 78.5 56.4 19.6 11.5 11.6 10.6Primary electricity 10.2 16.7 20.2 15.1 17.5 17.4Bioenergy & waste 0.0 0.7 2.3 5.2 5.6 6.4Total 210.5 219.4 288.7 157.9 136.8 122.1
Total production of primary fuels, when expressed in terms of their energy content, fell by 10.7% in 2012 compared to 2011. There were sharp falls in both oil and gas production due to a number of maintenance issues and longer term decline. Primary oil (crude oil and NGLs) accounted for 40% of total production, natural gas 32%, primary electricity (consisting of nuclear, wind and natural flow hydro) 14%, coal 9%, while bioenergy and waste accounted for the remaining 6.4 million tonnes of oil equivalent.
Total production increased rapidly between 1980 and 2000, mainly due to the growth of oil and gas. Production in 2000 was at record levels for natural gas, whilst in 1999 it was at record levels for overall energy and petroleum. Production has since been on the decline as a number of oil and gas fields become exhausted and also due to increased maintenance activity. Production is now 59% lower than its peak in 1999.
24
18
Coal
Coal production and imports, 1980 to 2012M
illio
n to
nnes
0
20
40
60
80
100
120
140
160
2012200520001995199019851980
Imports Surface mining Deep mined
Million tonnes
1980 1990 2000 2010 2011 2012Deep mined 112.4 72.9 17.2 7.4 7.3 6.2Surface mining (including slurry)
17.7
19.9
14.0
11.0
11.3
10.9
Total 130.1 92.8 31.2 18.4 18.6 17.0Coal imports 7.3 14.8 23.4 26.5 32.5 44.8
In 2012 UK coal production fell to an all-time low of 17 million tonnes. Production was 8% lower in 2012 than in 2011; deep mined production fell by 16%, as a result of a number of operational and geological issues faced by several of the 10 deep-mined sites in operation at the end of 2012, whilst surface mine production (including a small amount of slurry) decreased by 4%. Imports started in 1970, and grew steadily to reach 20 million tonnes a year by the late 1990s; very rapid expansion of imports in 2001 meant that imports exceeded the level of UK production for the first time in that year. As annual levels of UK coal production continued to fall, imports continued to grow rapidly and in 2006 reached a new record of 51 million tonnes, representing 75 per cent of total UK coal supply. From this point on, imports fell, mainly as a result of less demand by electricity generators, rather than higher indigenous production. However, in 2012, due to a greater demand by electricity generators and with UK production at an all-time low, imports increased by 38 per cent (+12 million tonnes) from the levels reported in 2011 (33 million tonnes), but still 6 million tonnes lower than 2006.
25
20
Petroleum
Foreign trade in crude oil and petroleum products, 1980 to 2012£
bill
ion
1980 1985 1990 1995 20122000 20050
10
20
30
40
50
60
Imports Exports
Crude oil and petroleum products £ billion
1980 1990 2000 2009 2010 2011 2012Exports 6.5 8.1 15.6 24.6 31.3 38.0 39.7Imports 6.2 6.4 9.0 28.0 36.0 49.6 53.8Net Imports -0.3 -1.6 -6.6 3.4 4.7 11.5 14.2Source: Office for National Statistics
Crude oil and petroleum products Million tonnes of oil equivalent
1980 1990 2000 2009 2010 2011 2012Exports 58.4 80.4 123.9 77.5 74.6 67.2 66.7Imports 60.4 69.2 74.8 83.8 85.9 88.2 94.6Net Imports 2.0 -11.2 -49.1 6.8 11.4 21.0 27.9Source: DECC
Since the first ‘surplus’ on oil trade (£0.3 billion) which occurred in 1980, oil trade has contributed more than £45 billion to the UK balance of payments. The largest ‘surplus’ of £8 billion in 1985 reflected high crude oil production and prices. In 1990 the ‘surplus’ fell from this peak due to lower prices but managed to peak again in 2000 (£6.6 billion). Since 2000 the surplus has steadily declined and in 2005 the UK became a net importer of oil (-£2.2 billion) though still an exporter of oil products. In 2012, the deficit was £14.2 billion, an increase of £2.6 billion from the previous year, as imports increased to offset the falls in UK production.
26
25
Natural gas
Natural gas consumption, 1980 to 2012TW
h
0
200
400
600
800
1,000
1,200
2012200520001995199019851980
Electricity generatorsEnergy industries
DomesticIndustrial
Services
TWh
1980 1990 2000 2010 2011 2012Electricity generators 4.0 6.5 324.6 373.6 307.1 214.1Energy Industries 19.1 39.2 102.1 92.1 81.8 77.8Industry 177.5 164.6 198.5 123.1 120.0 116.9Domestic 246.8 300.4 369.9 389.6 293.4 339.1Services 60.4 86.4 110.5 98.6 91.9 97.6Total 507.8 597.0 1,105.5 1077.0 894.2 845.6
From the early 1970s, following the expansion of UK production of natural gas, gas consumption grew rapidly reaching a record high in 2004 of 1,125 TWh. Since then, consumption has seen an overall decline, and in 2012 total gas consumption was 845.6 TWh, around 25% below its 2004 peak. These longer term trends are driven by commodity prices, energy efficiency and, for domestic use in particular, temperature.
Domestic demand in 2012 was high, up almost 16 per cent on 2011, reflecting colder temperatures, but gas demand for electricity generation fell by almost a third to 214 TWh largely as a result of coal replacing gas use due to high gas prices.
27
37
Prices
Fuel price indices for the industrial sector, 1980 to 2012
0
50
100
150
200
250
300
2012p200520001995199019851980
Rea
l pri
ces
(200
5=10
0)
Coal Electricity Gas Heavy Fuel Oil
Real prices, 2005 = 100
1980 1990 2000 2010 2011 2012Coal 193.1 128.1 80.4 135.0 145.5 140.3Electricity 149.9 120.9 85.6 145.6 146.7 151.6Gas 126.5 77.7 48.2 108.9 130.7 141.0Heavy fuel oil 129.4 54.0 69.2 204.6 242.5 253.9Industrial prices 141.2 103.5 75.1 150.8 164.3 171.6Includes the Climate Change Levy that came into effect in April 2001.
Compared to 2011, industrial coal prices decreased in 2012 by 4% in real terms, but were 54% higher than 10 years earlier in 2002. Electricity prices increased in 2012 by 3% in real terms, and were 94% higher than 10 years earlier in 2002. Gas prices increased by 8% in 2012, but were 122% higher than in 2002. Heavy fuel oil prices increased by 5% in the year to 2012, and were over two and a half times as high as in 2002. The rise in heavy fuel oil prices is due to the sustained high price of crude oil since 2010.
28
UK CHANGING ENERGY PATTERNS QUESTIONS;
1. Look at the key points of the UK’s energy sources in 2005, page 22. Then
look at page 23 for 2012. Is it the same? If not, explain how and why.
2. Look at page 24 and describe how our overall energy use has changed over
the years.
29
UK CHANGING ENERGY PATTERNS QUESTIONS;
3. Look at pages 25, 26 and 27 and explain the patterns or trends in our use of
coal, petroleum and natural gas.
4. Look at page 28 and explain how fuel prices have changed.
30
ENERGY WORKSHEET PUPIL’S BOOK PAGE 73
Changing energy patterns in the UKName ________________________________________________________________________________
• The UK has the largest and most varied energy resources of all the European Union countries.• Production of oil and gas from the North Sea began in the 1970s. Less than half of these resources have been
exploited.• Since the 1980s there has been growing awareness of the impact of burning fossil fuels on air quality and
global warming.• The coalminers’ strike in 1984 led the government to reduce its support for the coal industry and encouraged
companies to import cheaper foreign coal.• Nuclear accidents, such as Chernobyl in 1986, have led to concern over the safety of nuclear power.• Electricity and gas companies in the UK were privatised in the 1980s, taking them out of government control.
Unlike national industries, private companies have to make a profit.• Burning coal produces much more sulphur dioxide (SO2) than burning gas.• The EU requires electricity producers to reduce SO2 emissions from power stations by 60% from 1980 levels,
by the year 2003.• The Kyoto Summit of 160 governments in 1997 requires all EU countries to reduce CO2 emissions by 8%
from 1990 levels, by the year 2020.• The UK government expects electricity companies to take more of their power from renewable sources.• Gas has become a more profitable alternative to coal burning in power stations.
144 earthworks 3 teacher’s resource book © JOHN MURRAY
4.9
Your task1 Study the data in the table. Ask your teacher for some graph paper.
Draw a graph, or graphs, to illustrate the data.
2 a) In your workbook, describe the changes in energy production andconsumption in the UK from 1982 to 1992.
b) Suggest how imports or exports of each fuel might have changed.
3 Read the information in the box below. These were some of the factorsthat caused energy patterns to change.a) Underline the three types of factor: economic, environmental and
political. Use three different colours.b) Write three paragraphs in your workbook to explain the effect of:
i) economic, ii) environmental, and iii) political factors.
1982 1986 1992
Total UK energy consumption (million tonnes of oil equivalent) 196.4 217.9 233.0
Coal 68.0 63.6 46.9
Oil 71.0 78.3 78.2
Natural gas 45.2 55.6 83.9
Nuclear electricity 11.9 18.5 22.2
Hydro-electricity 0.4 0.5 0.3
Imported electricity 0.0 1.4 1.4
UK fuel production (million tonnes of oil equivalent)
Oil 112.5 103.7 142.4
Natural gas 35.3 51.2 84.8
Coal 76.1 52.1 34.2
Source: UK Government Statistical Service © Crown copyright
Earthworks unit 4 04/05/2000 3:00 pm Page 144
UK CHANGING ENERGY PATTERNS
UK CHANGING ENERGY PATTERNS
33
ENERGY WORKSHEET PUPIL’S BOOK PAGE 70
Domestic energy consumptionName ________________________________________________________________________________
oven 2,000microwave oven 1,000water heater 3,000storage heater 2,500kettle 2,000toaster 1,000fan heater 1,000washing machine 500tumble dryer 4,000dishwasher 1,000iron 500hair dryer 1,000TV 200hi-fi 100vacuum cleaner 500lamp 60 low-energy lamp 20refrigerator 50freezer 100radio 50computer 300
Electricity consumption ofhousehold appliances (watts per hour)
© JOHN MURRAY earthworks 3 teacher’s resource book 141
4.6
Electricity companies sell electricity by the unit. One unit is theamount that is consumed by a one-kilowatt (1,000 watts) appliancefor one hour. So, for one unit of electricity a 100-watt lamp willlight continuously for ten hours, or a 1,000-watt fire will heat forone hour.
Your taskFind out how much electricity your family consumes in a day. (It would beeasier to do this at the weekend when you are around yourself to check.)a) Keep a record of each appliance that is used during the day and for how
long it is used. Write this in the table.b)Find the electricity consumption for each appliance in the box below.
Work out the amount of electricity each appliance uses in a day.c) Work out the total amount of electricity consumed in a day. If you know
the price per unit, you could also work out the cost. (The price per unitwill be on your last electricity bill.)
Appliance Electricity Number Daily electricityconsumption of hours consumption (watts per hour) used (units)
Total daily electricity consumption
Earthworks unit 4 04/05/2000 3:00 pm Page 141
34
LESSON 4; Pack p 34, UK domestic energy consumption DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
35
WORLD TOTAL ENERGY CONSUMPTION 2012; units Mtoe
(million tonnes of oil equivalent)
http://yearbook.enerdata.net/
China 2,713
United States 2,152
India 774
Russia 725
Japan 457
Germany 314
Brazil 281
South Korea 264
Canada 256
France 251
Put the above information into a bar graph using the graph paper below;
36
ENERGY WORKSHEET PUPIL’S BOOK PAGE 86
Global energy consumptionName ________________________________________________________________________________
© JOHN MURRAY earthworks 3 teacher’s resource book 159
4.24
Your task1 Look at the table below. It shows the percentage of the world’s energy
that is consumed in each continent.
2 Draw a map to show percentage energy consumption for the continentson the grid below. Colour one square for each 1% of world energyconsumption. Try to make the shapes of the continents similar to theiractual shape on a world map.
% of worldenergy consumption
Africa 3
Asia 18
Australasia 2
Europe 44
North America 28
South America 5
World energy consumption by continentWorld population by continent
3 a) Compare the shape of the map you drew with the map of world
population above. How do they differ? ________________________________________________________
________________________________________________________________________________________
________________________________________________________________________________________
________________________________________________________________________________________
________________________________________________________________________________________
b) What do the maps tell you about per capita energy consumption in
each continent? __________________________________________________________________________
________________________________________________________________________________________
________________________________________________________________________________________
________________________________________________________________________________________
Earthworks unit 4 04/05/2000 3:01 pm Page 159
37
39
41
Where in the world does our energy come from?
Question 1 pie chart;
2.
3.
4. a
4. b
5.
42
43
WORLD OIL CONSUMPTION ANSWERS
45
WORLD OIL CONSUMPTION ANSWERS
46
LESSON 5; World oil consumption Pack p43 -47
DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
49
50
51
52
ENERGY WORKSHEET PUPIL’S BOOK PAGE 84
The Exxon Valdez disasterName ________________________________________________________________________________
156 earthworks 3 teacher’s resource book © JOHN MURRAY
4.21
When the Exxon Valdez oil tanker ran aground in 1989 it createdone of the world’s largest oil spills and a huge environmentaldisaster. About 40 million litres of oil were spilt affecting 2,400kilometres of coastline. Along the shore the layer of oil was up toten centimetres thick.
The short-term effect on wildlife was devastating – about 4,000otters, 200 harbour seals and 400,000 birds were killed. In 1990,45 million salmon returned to their ancestral rivers along the southcoast of Alaska, but two years later this had dropped to five million.It has been harder to assess the long-term impact of the disaster.
Evaporation
Spread over ocean surface
SinkingBiodegradation
Ingestion by fishand other sea life
Absorptionby sedimenton sea bed
Absorptionby beach
Dispersal inwater
Your task1 Look at the diagram above. Only 15 per cent of the
oil spilt by the Exxon Valdez was ever recovered,yet if you were to visit the area today there are fewvisible signs of oil pollution.a) In your workbook, describe what happened to
the rest of the oil.b) Suggest where you might still find evidence of oil
if you were to investigate a little more carefully.
2 Look at the graphs on the right.a) Describe the change in the population of each
species since 1988 (the year before the disaster).b) What evidence is there in the graphs that the
disaster had an impact on the population of anyof the species? In each case, was this impactshort-term or long-term?
Num
bers
of e
ach
spec
ies
Year'97'95'89 '93'911988
Cormorant
Pacific herring
Harbour seal
Bald eagle
Source: Exxon Valdez Oil Spill Trustee Council
Earthworks unit 4 04/05/2000 3:01 pm Page 156
53
Exxon Valdez Oil Spill
54
REMEMBER TITLE AND DATE LESSON 1
55
REMEMBER TITLE AND DATE LESSON 1
56
LESSON 6; Write a newspaper report about an oil spill
with text, map and pictures; what happened, when did it happen, where did it happen, who was involved, what were the effects, what do people think about the oil spill, what was done to try to clean it up?
DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
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58
Resources and the environment NEW KEY GEOGRAPHY Connections pages 78–79
Green energy!
4.11
NEW KEY GEOGRAPHY Connections Teacher’s Resource © Nelson Thornes 2006109
�1 Read about the advantages and
disadvantages of wind power below.
The wind has been used for thousands of years as
a power source for sailing ships and windmills.
Nowadays, huge wind turbines can generate
electricity from the power of the wind. A wind
farm is an area with lots of wind turbines in it.
�2 Categorise the statements by colouring them as follows:
� advantages of wind power in green
� disadvantages of wind power in red.
Fast-moving blades killmigrating birds.Often sited in areas of
outstanding natural
beauty or National Parks.
Can be ideal for isolatedislands where it is difficultto get electricity.
Are cheaper than nuclear
power and safer.
Can be removed withno permanent scarringof the landscape.
No carbon dioxide orgreenhouse gases aregiven off becausenothing gets burnt.
Does not contributeto global warming.
Does not cause airpollution or give offany gases that canlead to acid rain.
Can generateelectricity close topeople who need it.
To be exposed to thegreatest wind, wind farmshave to be located on highland, making them visiblefor a great distance.
Are the most energy-efficient of all theelectricity-generatingtechnologies.
7,000 turbines areneeded to producethe same amount ofelectricity as onenuclear power station.
Generating electricity usingwind power is still expensive.
Onshore wind power is very
ineffective in comparison
with offshore power.
Winds are strongestin winter whendemand forelectricity is highest.
Electricity generatedduring storms cannotbe stored for useduring calm weather.
Land underneathwind turbines canstill be farmed.
Wind could generate 10%of the UK’s electricity.
No fuel to transportor to store.
The UK has many suitablesites for wind farms, bothon land and offshore.
Wind is unreliable, soturbines cannot beturned on when demandfor power is highest.
A large wind farm isexpensive to build.
Visitors can be put offpopular tourist areas wherewind farms are located.
Coldest weather is oftenduring calm weather.
Wind does notblow all the time.
Wind power is gettingcheaper to develop.
Turbines are noisy andcan interrupt TV andradio transmission.
Running costsare very low.
Wind is free.
The UK is one of the windiestcountries in the world.
Can produce incomefor farmers whoseland they are on.
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ENERGY WORKSHEET PUPIL’S BOOK PAGE 79
Denmark leads the way in wind powerName ________________________________________________________________________________
Copenhagen
DENMARK
© JOHN MURRAY earthworks 3 teacher’s resource book 151
4.16
Your task1 Read the facts about the wind energy industry in Denmark. Choose five
facts that are important arguments in favour of wind power.
2 Find a map of Europe in your atlas that shows both Denmark and theUK.a) In your workbook, compare the location of the two countries.
Suggest ways in which the UK is an even better location for windpower than Denmark.
b) Imagine that you work for the wind energy industry in the UK.Write a letter in your workbook to the government outlining themain arguments in favour of developing more wind farms in the UK.
Denmark has 4,900 wind turbinessupplying 7% of the country’selectricity – a higher proportionthan any other country in theworld.
Denmark’s wind energy industryemploys more people than thecountry’s fishing fleet.
Denmark has the most ambitiouswind energy target in the world –to get 50% of its energy from thewind by 2030.
Wind power produces minimalamounts of carbon dioxide, themain greenhouse gas. Each 1.5megawatt wind turbine avoids5,000 tonnes of carbon dioxidebeing emitted by burning coaleach year.
Europe’s largest wind farm is atCarno in Wales. It produceselectricity for 25,000 homes. Thewind turbines were built inDenmark.
Wind turbines are Denmark’sfourth largest export commodity.
Wind energy in Denmarkproduces enough power for440,000 homes.
An estimated 40,000 jobs havebeen created by the wind energyindustry around the world –mostly by Danish companies.
In the 1930s, over 30,000windmills were used in Denmarkto power farm machinery andpump water. By 2030, 4,000modern wind turbines couldprovide half the country’s energy.
Source: Greenpeace website at: http://www.greenpeace.org
Earthworks unit 4 04/05/2000 3:01 pm Page 151
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WIND POWER DENMARK;
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ENERGY WORKSHEET PUPIL’S BOOK PAGE 80
Coal or wind?Name ________________________________________________________________________________
Your task1 Cut out the statements below.
2 a) Read them carefully and sort them into two groups – statementsabout i) a coal-fired power station and ii) a wind farm.
b) Sort the statements in each group into two further groups – i) the advantages and ii) the disadvantages of each form of power.
3 Use the statements to help you to complete the assignment on page80 of the Pupil’s Book.
It does not produceelectricity continuously –it depends on theweather
It causes no air pollutionand does not add to thegreenhouse effect
It costs less money perkilowatt-hour ofelectricity generated
It takes up a large area,but the land can still beused for livestock farming
It can produce enoughelectricity to supply alarge urban area
It produces a number ofharmful gases that causeair pollution and add tothe greenhouse effect
Much of the energyproduced is wasted asheat
Once it has been built itdoes not require anyfurther inputs
It costs more money perkilowatt-hour ofelectricity generated
It requires a hilly site andmakes a large impact onthe landscape
It uses a non-renewableresource that willeventually run out
It produces noise fromthe turbines
It produces electricitycontinuously whateverthe weather
The land cannot be usedfor any other purpose
Little of the energyproduced is wasted
It needs good road and/orrail links located neardensely populated areas
It produces enoughelectricity to supply asmall town
It requires a flat site andmakes a large impact onthe landscape
To produce 1,000 MW of electricity needs only100 hectares of land
It uses a renewableresource that will neverrun out
It requires inputs,especially fuel, togenerate electricity
It does not produce muchnoise as the turbines arehidden
It does not needtransport links and can belocated in remote areas
To produce 1,000 MW ofelectricity needs 10,000hectares of land, or 10 km2
152 earthworks 3 teacher’s resource book © JOHN MURRAY
4.17
Earthworks unit 4 04/05/2000 3:01 pm Page 152
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COAL OR WIND;
64
Lesson 7 homework
65
LESSON 7; 1. Map Zone GIS Missions – Wind Power Location
(Link on MyQG) http://mapzone.ordnancesurvey.co.uk/mapzone/giszone/english/gismissions/page2.htm
2. Doddle; Wind Farm
DATE MARKED: GRADE: A B C D MERIT: 1 2 ORDER MARK: DETENTION: COMMENT: TARGET:
66
ENERGY SELF-ASSESSMENT SHEET PUPIL’S BOOK PAGES 67–88
Energy self-assessmentName ________________________________________________________________________________
© JOHN MURRAY earthworks 3 teacher’s resource book 167
When you have completed the Energy Resources unit, assess howwell you are able to do each of the following things.
Not at all With help Quite well Very well
– identify ways in which energy is used in your school andhow it could be conserved
– describe and explain changing energy demand throughthe day
– describe how we obtain our energy and how this ischanging
– distinguish between renewable and non-renewable energyresources
– explain the causes and effects of global warming
– recognise the environmental effects of different types ofenergy production
– use a contour map to choose the best site for a windfarm
– compare the advantages and disadvantages of coal andwind power
– consider our dependence on cars, and the alternatives
– assess the environmental costs of cars
What have you enjoyed in this unit? _______________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
What have you found easy in this unit? _____________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
What have you found difficult in this unit? __________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
What do you need to improve on in the next unit? ___________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
____________________________________________________________________________________________________
Earthworks unit 4 04/05/2000 3:01 pm Page 167
67
ENERGY AND RESOURCES HOMEWORK
Lesson 1; Pack p 3, 4 and 5; A day in my life Lesson 2; Pack p 10/11/12, What are renewable and non-
renewable resources? Exercise 1, 2 and 3, use Connections p76 to help you
Lesson 3; Pack p 16 to 19; Write 3 paragraphs with
diagrams about how oil, coal and natural gas are formed, use the Educapole website to help
Lesson 4; Pack p 34, UK domestic energy consumption
Lesson 5; Pack p 43-47, World oil consumption
Lesson 6; Pack p 55/56; Write a newspaper report about an oil spill with text, maps and pictures; What happened, when did it happen, where did it happen, who was involved, what were the effects, what do people think about the oil spill, what was done to try to clean it up?
Lesson 7; 1. Map Zone GIS missions – wind power location (link on MyQG) http://mapzone.ordnancesurvey.co.uk/mapzone/giszone/english/gismissions/page2.htm 2. Doddle; Wind Farm
Extra extension work/independent learning; Doddle -browse in all resources for energy and resources; https://www.doddlelearn.co.uk
SPARE PAGES
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