Key Terms:
Aerial Photograph – a photograph taken directly from above – i.e. a ‘birds-eye view’
Altitude – height above sea level (in meters)
Annotate – an explanatory label
Aspect – the direction a place is facing
Contours – lines that join places of equal height
Cross Section – shows the shape of the land in profile
Density – how closely packed something is; for example:
Population density – number of people in an area
Building density – number of buildings in a given area
Dispersed settlement – where individual buildings are spread out around an area
Distribution – the way something is spread out, such as population distribution (e.g., unevenly spread, grouped together, etc.)
Evaluation – discuss the strengths and weaknesses of something
GIS (Geographical Information System) – a layered digital system with a map as a base and layers of other information on top
Hypothesis – a testable statement
Label – a simple descriptive point
Linear settlement – where buildings are located on either side of a main road
Nucleated settlement – where buildings are grouped together (often at crossroads or around a village green)
Oblique aerial – a photograph taken from above but at an angle
Pattern – trends or regularities in something
Relief – the height and shape of land
Satellite image – a picture of the Earth taken from space
Scale – how much smaller something is than what it represents in real life, e.g., on a map (e.g., 1:50,000 – 1 cm on the map is 50,000 cm (500 meters) in real life)
Site – the land that the settlement is actually built on
Situation – the position of a settlement in relation to its surroundings
Topography – the shape and features of the Earth’s surface
Trend – a relationship or correlation between data, such as a positive trend/positive correlation (where one thing increases as another does).
BASIC SKILLS: (i) Labelling and Annotation
You must make sure you know the difference between labelling and annotation. You may be asked to label or annotate a sketch, photograph, map, or diagram, and you must make sure that you do not mix up the two command words.
LABEL – this is a simple descriptive point, e.g., ocean trench; volcano.
ANNOTATION – a more detailed description or explanatory point, e.g., ocean trench (a long narrow canyon) formed where one plate is subducted under another.
LABELLING AND ANNOTATING DIAGRAMS
(i) Labelled diagram of a Destructive Boundary
(ii) Annotated diagram of a Destructive Boundary
LABELLING AND ANNOTATING GRAPHS
(i) Labelled Population Pyramid
(ii) Annotated Population Pyramid
LABELLING AND ANNOTATING PHOTOGRAPHS
(i) Labelled Photograph of a River
(ii) Annotated Photograph of a River
BASIC SKILLS: (ii) Interpretation of Photographs
Satellite Images
These are images that are taken hundreds of miles away, from satellites in space. Some satellite photographs provide realistic photographic images of a place (such as those used in Google Earth), whilst others use infrared imagery, detecting heat patterns. Infrared pictures can help identify different types of land-use, as different surfaces appear in different colours. Infrared thermal imaging can also have application for other geographical purposes such as monitoring volcanoes and detecting rising magma.
Satellite Photo of the River Nile
Vertical and Oblique Aerial Photographs.
Vertical aerial photographs are those taken looking straight-down – i.e. giving a ‘birds-eye view’ of a place
Oblique aerial photographs are those taken from an angle – so it possible to see more detail of the features.
YOU MUST KNOW THE DIFFERENCE BETWEEN VERTICAL & OBLIQUE PHOTOGRAPHS
Oblique View of Swanage Bay – Dorset
Vertical aerial view of Swanage Bay – Dorset
Interpreting Aerial Photographs
If asked to describe or interpret what can be seen in an aerial photograph you should talk about both PHYSICAL FEATURES and HUMAN FEATURES.
Physical Features – include things such as relief; rivers etc.
Human Features – include type of land use, settlements etc.
See the word list on page 14 for ideas of key words to use in describing features.
CARTOGRAPHIC SKILLS: (i) Atlas Maps
You will be expected to be able to describe distribution and patterns of both human and physical features on a range of maps at a variety of scales.
How to describe patterns of human and physical features on a map
- General Statement of location – identify locations of places on a map – north, east, south, west etc.
- Adding place specific detail – use names of places e.g. found in the west of the UK close to the River Severn; around the equator
- Identify patterns – concentration around…. densely populated…. unevenly spread, around coastlines etc.
Time to Practice!
Study the map below showing the distribution of population in North and South America.
Qu. Describe the similarities and differences in population distribution in North and South America.
Study the map below showing the global distribution of Tropical Rainforests.
Qu. Describe the distribution of the world’s Tropical Rainforests.
Qu. Describe the pattern of most popular emigration destinations from the UK between 2004-2006
CARTOGRAPHIC SKILLS: (ii) Sketches from Photographs & Sketch Maps
Sketches from Photographs
Drawing geographical sketches from photographs is an important skill. You don’t have to be an excellent artist – you just need to be able to identify and sketch key features.
Exam Expectations: In an exam you may be given a part finished sketch and asked to complete it. To make a sketch useful you will then be expected to add appropriate labels and annotations.
Instructions for Drawing Sketches from Photos
- draw a simple box frame to the appropriate size & divide frame into four quarters with lightly drawn guidelines ;
- draw in lines for major features to show the shape of the landscape – e.g. hills, coastlines etc. & features like rivers.
- now add more minor features like woodlands, settlements etc. Remember don’t try and over complicate the sketch by making it too detailed.
- add appropriate labels & annotations
Sketch Maps
As with sketches from photographs, when constructing a sketch map you are only creating a simplified representation of the original map, you are NOT recreating the detail from the original map.
Exam Expectations: You may be asked to draw a sketch map to show a particular feature. – read the command words in the question to ensure you do exactly what is required.
Reproduced from Ordnance Survey map data by permission of Ordnance Survey
Instructions for Drawing Sketch Maps
- draw simple box frame and add the grid lines which will help act as guidelines.
- draw any features which are relevant to the question asked and any which you think will help your map make more sense (e.g. road networks, major settlements etc.)
- again, you are not expected to add all the detail – a sketch map should simplify reality
- appropriate labels and annotations should be added
- Remember in exams – you will only use pencil/black pen.
CARTOGRAPHIC SKILLS: (iii) Ordnance Survey Maps
DIRECTION
You must be able to describe the position of places in relation to other places using direction. You may also be asked to interpret oblique photographs by using OS maps to give the direction in which a camera was facing when it took the picture. You need to learn your 8 point compass.
How to calculate a bearing using a protractor:
Bearings can be given in degrees or converted to a compass direction. For example North is 0°, South is 180°, South West is 225° and North West is 315°.
STEP 1
STEP 2
ALTERNATIVE
SCALE
Scale is the link between real life distances and those on a map. Scale can be given in three different ways:
- As a statement: e.g. 1cm stand for ½ km
- As a ratio – e.g. 1:50,000 (this means that 1cm on the map is equal to 50,000 cm or 500m ( ½km) on a map)
- Or as a scale bar (most common on OS maps), given at the base.
If measuring distances you must remember when using the scale to start at the 0 (the left part of the scale bar is divided into sub-units to make it easier to measure part of a km.
(i) DIRECT DISTANCE (as the crow flies) Measures the direct distance between two points.
- Mark the positions of the two places on the edge of a piece of paper
- Place this edge under the scale bar and read off the correct number of whole and part kilometres (remember to start at 0!)
(ii) ACTUAL DISTANCE (Indirect) Choose a straight edged piece of paper, mark one of the places on the edge and gradually work along the route, using a pen to pivot the paper and keep it in place to follow the route until meet the second place (mark this with a pen). You can then use the scale bar to work out the distance.
EXAM TIP – REMEMBER, when measuring distances:
- Do NOT use a ruler – this is a major source of errors
- Be accurate – do NOT round up or down!
- On a 1:50,000 OS map – 2cm = 1km – so one grid square = 1km2
ESTIMATING AREA
You may be asked to estimate area from a map, remember on a 1:50,000 map, 1 grid square = 1km2. Therefore if you are estimating the area of woodland which only takes up approx 3/4 of the square you would estimate the area to be 0.75km2.
SYMBOLS
You must make sure you make good use of a key on a map, particularly if you are asked to describe physical / human features of an area, or for example, the site and situation of a place.
In an exam you will be provided with a key, but it is useful to know and learn some of the most often used symbols. Some examples are given in the table below.
GRID REFERENCES
You must be able to both GIVE and FIND 4 and 6 figure grid references.
4 figure grid references – these enable you to locate an individual square on a map
How would you give the four figure grid reference of the square with the marsh in?
1) Give the number of the line to the left of the square which is 18
2) Give the number of the line to the bottom of the square which is 09
Now put the two numbers together to give the four figure grid reference: ___ ___ ___ ___
So what is the 4 figure grid reference for:-
(i) Campsite __ _ __ (ii) Pub __ _ __
(iii) Woodland __ _ __ (iv) caravan site __ _ __
6 figure grid references – these enable you to pinpoint an exact location within a grid
REMEMBER – if you are asked to give a 6 figure grid reference for a building such as a farm or school – the grid reference you give should be for the centre of the building (not for its label!)
Six figure grid references are simply an extension of four figure grid references. The four figure grid reference tells us which grid square to look in, a six figure grid reference tells us precisely where within that grid square to look.
So what is the six figure grid reference for the:
Bus Station __ __ __ __ __
Picnic Site __ __ __ __ __
Car Park __ __ __ __ __
How would we give the six-figure grid reference for the church with a spire, located within this grid square?
Firstly – what is the 4 figure grid reference for this square? (remember give the number of the line to the left and then number of the line immediately below the square ___ ____ ____ ____
You need to imagine that the square is divided into tenths (along the bottom and up the side).
- Go ‘along the corridor’ (follow arrow A), how many tenths along the square is the church? _____, add this number to the first two figures of your four figure grid reference. 0 5 __
- Now go ‘up the stairs’ (follow arrow B), how many tenths up the square is the church? _____ , add this number to the second two figures of your four figure grid reference 1 4 __
- Now put the two halves together to give the six figure grid reference for the church with the tower which should be written 055148.
Describing Physical and Human Features on OS maps
You need to be able to recognise and describe physical and human features on a map, the table below gives examples of things you should be able to talk about.
When identifying physical features on a map you should be able to name and identify landform features and describe the relief of the land.
Remember relief of the land refers to the height and shape of the land. On OS maps, relief is shown by contour lines, spot heights and triangulation pillars.
INTERPRETING CONTOUR LINES – REMEMBER:
The closer together the contour lines – the STEEPER the slope (i.e. height of land changes quickly)
The further apart the contour lines – the FLATTER the slope (i.e. height of land changes very slowly)
You should be able to identify key and describe relief landforms from distinctive contour patterns.
The main features that you would be expected to recognise are:
Practice
Go back to the map on page 22. Find the spot heights at 112336 and 163314. Calculate the gradient between these two points. Express it in all three formats:
Drawing and Interpreting Cross Sections
A cross-section shows the variations in relief along a chosen grid line.
EXAM TIP: In an exam situation….
- You may be asked to INTERPET / ANNOTATE features on a cross-section
- Place the straight edge of a piece of paper. Lay it along the grid line for which you are drawing the cross section (sometimes in an exam this is indicated with a line – X – Y). Mark the starting and ending point on your paper.
- Ensure that you have a sharp pencil and mark the position of each contour line which touches the paper with a small line. REMEMBER – you must note down the height of the contour! (as in diagram A) (if the line passes through a spot height or triangulation pillar – this should also be marked down)
- When all contour lines touching the paper have been marked on remove the paper and lay it out along the base of the given cross-section outline.
- Mark the points on the graph at the correct heights with a cross (as shown in diagram B)
- When all points have been plotted, join up the crosses with a smooth line. Do NOT use a ruler to join up your points, because you are drawing the shape of the landscape which will never be straight!
PRACTICE QUESTIONS: Interpreting Cross Sections
EXAM TIP: In an exam situation….
- Copy a technique which has already been started. In this example there is an arrow with the label at the top, you should do the same.
Describing site, situation and shape of settlements
Site of a Settlement
This describes the land on which a settlement has been built and includes both human and physical features.
When describing site in an exam, remember:
S – Slope – slope / relief of the land
H – Height above sea level
A – Aspect – way the slope faces
W – Water Supply
L – Land (i.e. that settlement is built on – fertile land, floodplain)
Situation of a Settlement
Situation refers to the location of a place in relation to its surrounding physical and human features. When thinking about what to talk about when describing situation, remember:
P – Places (nearby settlements)
A – Accessibility
R – Relief (near hills etc.)
C – Communications (e.g. roads / rivers)
There are a number of physical and human factors which have affected both the site and situation of settlements. For ideas for things to include when describing the site of a place – think about:
EXAM TIP
- Make sure for the exam you are able to describe and suggest explanations for the site and situation of a settlement.
- You may be asked to draw a sketch map showing a settlement & annotate to explain its site.
DESCRIBING SETTLEMENT SHAPE
Example Questions & Answers on Site and Situation
The following refer to the Salisbury OS map extract on the next page.
Describe the situation of Wilton (4 marks)
Wilton is situated on the A36(T), approximately 4kms WNW of Salisbury. It is north of the River Nadder and south of the railway line. It is located ENE of Burcombe and NW of Netherhampton and SSE of South Newton.
Describe the site of Wilton (0931) (4 marks)
Wilton is 68 metres above sea level, located on the north bank of the River Nadder and is located on the flat bottom of the river valley.
Describe the differences in land-use between grid squares 1528 and 1531 (5 marks)
In grid square 1528 there is a sewage works (159077) and a lot of agricultural land-use with a farm (Bridge Farm 156072) and a farm track with bridge over the river (157075). In contrast to this, the land-use in grid square 1531 is more built up, with mainly residential land-use, including a settlement called Bishopdown, with housing arranged in crescents (e.g. 153317) and cul de sacs (i.e. 153316) and communications including a road (A30) and a railway line running parallel to this. There is also a crematorium and cemetery at 153314.
Describe the differences in relief around the villages of Great Wishford (in the NW corner of the map) and Winterbourne Dauntsey (in the NE corner of the map) (5 marks)
Great Wishford sits in the valley bottom of the River Wylye. The valley runs in a NNW-SSE direction. To the west of the village the valley side rises with a steep east facing slope. The contour lines rise from 70m above sea level to 140m above sea level, a rise of approximately 70m over a distance of 1km. To the east, the west facing valley side rises steeply to 150m at Newton Barrow) with a trig point of 156m above sea level). Compare to this, the relief around Winterbourne Dauntsey is much flatter with a gently sloping gradient rising from 60-68 metres above sea level.
GRAPHICAL SKILLS: (i) Bar Graphs
BAR GRAPHS
These are one of the simplest data presentation techniques. They are used to display discrete data in separate columns (i.e. categories are unordered – can be arranged by size, alphabetically etc.)
Example – number of different accommodation types
How to construct a Bar Graph
Select appropriate layout (if lots of bars – landscape is best, but if large range of data, portrait is best).
- Choose an appropriate scale for the x and y axis (for the y axis make sure this allows for the highest value to be plotted).
- Draw each bar to the correct value
- It is usual to have a gap between each of the bars.
- Clearly label both axes and add a title
- Colour in each bar a different colour (as discrete data) and ensure that you add a key.
Advantages
- Can easily compare two or three data sets
- Values can be estimated at a glance
- Summarises large data sets in a visual form
Disadvantages
- Can only be used with discrete data
EXAM TIP
DISCRETE DATA is that which has values values / observations which are distinct and separate, i.e. they can be counted (1,2,3,….). Examples include gender (male, female); blood group (O, A, B, AB).
PRACTICE QUESTIONS: Bar Graphs
- Complete the graph using the following information:
“25% of the workforce of St Helens is employed in manufacturing industry” - How important is employment in manufacturing industry in St Helens compared with the UK as a whole, you should support your answer with figures.
- The population of Oakington fell by 3.1% between 2001 and 2004 – plot this information on Figure 1.
- Compare the change in population between Swavesey and Hardwick between 2001 and 2004. Use figures to support your answer.
Complete the graph by adding a bar for Caravan Sites – there are 75 caravan sites in the Peak District National Park
Study the graph below. Compare the % share of world population and contribution to global warming between North American and Southern Asia. Refer to figures in your answer. (2 marks)
GRAPHICAL SKILLS: (ii) Histograms & Compound Bar Graphs
HISTOGRAMS
HISTOGRAMS are also drawn as bars, however they are used to show CONTINUOUS DATA. Therefore in a histogram bars are drawn touching each other
EXAM TIP
Continuous data is information that can be measured on a continuum or scale. You can count, order and measure continuous data
Example – Pedestrian Flow changes over a continuous timescale.
How to construct a Histogram
- Decide on an appropriate scale for the x-axis and y-axis for the bars (it is important that the bars are of equal width and as it is continuous data there should be no gap between bars.
- Draw each of the bars to the correct value
- The bars should be coloured in the same colour (as continuous data)
- Remember to label axes and put a title on your graph.
Advantages
- Can compare data to the normal distribution and identify if data is skewed
Disadvantages:
- Can only be used with continuous data
COMPOUND BAR GRAPHS
In this technique, subdivision of bars is used to show relative % of a sub-component.
How to construct a Compound Bar Graph
Bars can be drawn either an equal distance apart or joined
An appropriate scale is required for the axes showing the % variable
An appropriate width is required for the bars (each bar should be the same)
Bards should be divided into the correct % and individual sub- divisions coloured and a key added.
A clear title and axes labels should be added.
PRACTICE QUESTIONS: Compound Bar Graphs
Differences in Water consumption between Europe, Africa and the USA
1. Using the % figures for water consumption, construct 3 compound bar charts to show the differences between water consumption in Europe, Africa and the USA. (include a title and label axis)
2. Suggest 3 reasons for the differences shown on your graphs.
(i) What % of the workforce of St Helens is employed in shops, hotels and restaurants? ……………………………………..
(ii) Identify a major difference between the employment structure of St Helens and the UK as a whole.
The divided bars above show % housing ownership in 3 residential areas. Using the information below the graphs, complete the bar to show housing ownership in Arboretum.
Describe the main changes in the use of energy shown in the diagram above. (3)
To what extent is there a link between birth rate and the literacy level of the countries shown in the graph above? (3 marks)
What is the birth rate in Sudan? …………………………………… (per 1000) (1 mark)
What is the birth rate in Mali? …………………………………. (per 1000) (1 mark)
What % of the adult female population in Brazil are literate? …………..% (1 mark)
What % of the adult female population in Egypt are literate? ………….. % (1 mark)
PRACTICE QUESTIONS: Histograms
The data below is from a beach survey in which a student took 100 samples of beach material and measured the size of the long axis.
- Using the data, draw a histogram on the graph paper over the page.
- Add a title and label your axis.
- Describe the graph
- What are the advantages of this technique
GRAPHICAL SKILLS: Located Bar Chart
Located bar charts are drawn at an appropriate place on the map. The big advantage of these is that they help to give spatial relevance to the data. The example opposite shows changes in international tourists between 1950 and 2005.
GRAPHICAL SKILLS: (ii) Pyramid Chart
Pyramid charts are commonly used to show population structure – these charts are known as POPULATION PYRAMIDS and they allow you to compare the number or % in different age groups and the balance between males and females.
However, pyramid graphs can also be used to show any continuous data which can be split into two – .e.g. pedestrian counts in two different directions.
Advantages
- Population pyramids make it easy to identify differences in population in a particular age group – or differences between males and females
Disadvantages
- pyramid charts can only be used with continuous data
How to construct a Pyramid Chart
- Decide on an appropriate scale for the x and y axis
- Draw your s-axis and then draw a vertical line to divide it into two halves – e.g. for population pyramids – the left half for males and the right half for females
- For population pyramids the x-axis usually shows the % in each age group and the y axis age bands (commonly 5 yr age bands)
- Draw each bar to the correct value (bars must be same width and no gaps between)
- Add a title and label the axes
PRACTICE QUESTIONS: Pyramid Charts / Population Pyramids
- Using the data from the table, complete the population pyramid for China in 2000.
- Describe the shape of the pyramid (you should use data in your answer)
Complete the Pyramid chart using the data in the table to show the pedestrian count completed outside the Townrow Department Store on Bridge Street in June 2010.
State a graphical technique other than pyramids that could be used to display pedestrian flows.
……………………………………………………………………………………………………………………………………………….
Justify your choice of the technique you have suggested.
GRAPHICAL SKILLS: (iv) Line Graphs and Compound Line Graphs
Line graphs are often used to show changes over time and can be used to show how one variable changes in relation to another variable (they variables must be linked).
Examples: Change in population over time; Traffic Counts / Pedestrian Counts over a time period; Changes in temperature over a year.
Advantages
- possible to show two sets of data on the same graph
- Good for showing absolute changes in data
Disadvantages
- some times when comparing two sets of data, different scales make it difficult to compare actual change (log graphs may be needed)
How to construct a Line Graph
- The independent variable is plotted on the x-axis (horizontal) (e.g. time), whilst the dependent variable is plotted on the y-axis (vertical) (e.g. Population)
- An appropriate scale needs to be decided for both the x and the y axis which will be determined by the range of values.
- The values should then be plotted using a dot or cross to mark where the x and y values meet
- A ruler should then be used to join the crosses.
- If several pieces of dependent data are being marked on, the lines can be colour coded & a key added – this can allow comparisons – e.g. differences in traffic flow on different days
- A title should be added and axes labelled.
Compound Line graph show the individual parts of a total and enable comparisons to be made.
Example: Changes in type of energy use over time; Changes in destination of UK exports over time.
Advantages
- very good for making sense of what can seem to be a complicated set of statistics enabling comparisons to be made.
Disadvantages
- can be difficult & time consuming to construct.
How to construct a Compound Line Graph
- The independent variable is plotted on the x-axis (horizontal) (e.g. time), whilst the dependent variable is plotted on the y- axis (vertical) (e.g. Population)
- Plot the data and draw the line for the first set of statistics
- Plot the data and draw the line for the second set of statistics – but remember to add the total to the first set.
- Continue as above with the remaining data
- Shade in between the lines in different colours for each section and add a key
- Label axes and add a title
PRACTICE QUESTIONS: Line Graphs
1. Simple Line Graphs
(a) Plot the statistics in Figure 1.13 to show population growth in East Anglia as a line graph. Add a title and label your axis (you need to select an appropriate scale for the y axis.
(b) Describe what your graph shows.
(c) State another technique which could be used to display this data.
2. Compound Line Graphs
The table below provides data showing the world production of cereal crops.
(a) Plot the statistics on the graph outline below to produce a compound line graph. (add an appropriate title, scale for y axis & label axis)
Describe two major changes in energy consumption which took place between 1930 and 1960 (2 marks)
What % of the energy used in 1930 was coal? ………………………………
What % of the energy used in 2000 was nuclear power? ………………………………
What % of the energy used in 1990 was Natural Gas? ………………………………
What % of the energy used in 2000 was Oil? ………………………………
PRACTICE QUESTIONS: Line Graphs
How much energy was used in 1997?
……………………………………………………………………………………………………………………………………………….
Describe the changes in the amount of energy used between 1980 and 1997. Support your answer with dates and figures.
Which gas was the main cause of air pollution between 1960 and 1983? (1)
……………………………………………………………………………………………………………………………………………….
How many kilograms of nitrogen dioxide were produced for every tonne of glass made in 1975? (1) ………………………………………………………………………………………….
Since 1965 the glass making industry has tried to reduce air pollution. Use evidence from Fig 2.d to describe how successful it has been (3)
……………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………..
Describe the changes in the amount of insecticides used in England and Wales between 1974 and 1994. Your answer should be supported with dates and figures (5)
……………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………….
GRAPHICAL SKILLS: (v) Isolines
Isolines join places of equal value and shows the distribution of a variable over an area – e.g. variations in height over an area, or variations in rainfall over an area.
Examples of Isolines
Contour Lines – these join places of equal height.
Isohyets – these lines join places of equal rainfall
Isochrones – lines joining places which are of equal time distance from an area (e.g. equal time distance from a shopping centre)
Isobars – lines joining places of equal air pressure
Isovels – join places of equal velocity in a river
How to construct an Isoline Map
- The data should be plotted on to a map of the area as dots with the value written next to it
- The interval used between isolines needs to be chosen carefully – too wide an interval and it will not show much, too small and the map will be cluttered
- Isolines are then drawn to join places of equal value (by joining the dots) – remember the lines MUST NOT cross each other and the lines MUST NOT join places of higher or lower value – only those equal in value!
- The space between the isolines is often left blank – however it can be shaded – if this is the case a key must be provided and the colour should become darker as the value increases.
An extract showing contour lines – with a contour interval of 10m
Advantages
- good for showing gradual changes over space
- Avoids the abrupt changes shown on choropleth maps.
Disadvantages
- requires a large amount of data for accurate drawing
- unsuitable for showing discontinuous / patchy distributions
PRACTICE QUESTIONS: Isolines
Activity 1: The map below shows how the energy from the 1989 earthquake varied with distance from the epicentre of the earthquake.
(i) Draw onto the diagram below the 60, 40, 20 and 10% isolines (each has been started for you)
(ii) Describe the pattern your completed map shows.
Activity 2: The diagram below shows spot heights. Isolines which are used to join places of equal height are known as contour lines. Complete the diagram below by plotting the following contour lines: 140, 130, 110, 100, 90, 80 and 70.
What is the average annual precipitation at X? ……………… mm
What is the average annual precipitation at Y? ……………… mm
What is the average annual precipitation at Z? ……………….. mm
GRAPHICAL SKILLS: (vi) Flow Lines
These show movement between places. These lines can be used to show direction and movement, with the direction of the line representing the direction of the flow and the thickness of the line representing the volume of flow.
Examples:
Pedestrian flows around a CBD
Traffic flows between a major service settlement & surrounding villages Migration to or from the UK.
How to construct an Isoline Map
Example – Migration to the UK from the rest of Europe
- Draw or find a base map which shows UK and the rest of Europe.
- Identify and name the countries from which migrants are coming to
- Look at the range of the values of the migration and decide upon an appropriate scale for the width of the arrows – make sure the scale isn’t too large so the flow lines don’t dominate the map.
- Draw the flow lines between the country of origin of the migrants and the UK – the tail of the arrow should be in the country where the flow began and the nose of the arrow should point towards the UK
- Remember to add a scale, title & shade the arrow to make them clearer
(In other forms of flow line maps, if for example you are plotting pedestrian counts which reflects movement from two directions – draw two arrow heads – one for each direction.)
Advantage
- good for showing flows of movement between places
- Gives strong visual impression of both volume of movement and direction of movement
Disadvantages
- parts of the map can get very crowded (particularly near to the destination)
Suggest one reasons why a flow diagram is a good way of representing data (1 mark)
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PRACTICE QUESTIONS – FLOW LINES
Use the statistics below to draw a flow line map on the blank outline on the next page to show the UK’s trade with its ‘top four’ trading partners. The scale has been worked out for you and is given in the key.
The UK’s top four trading partners 2010
Describe what your map shows about the UK’s trade. (3 marks)
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Evaluate the use of Flow line maps as a data presentation technique (4 marks)
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GRAPHICAL SKILLS: (vii) Pie-Charts
Pie charts (also known as pie diagrams) or divided circles are graphical techniques which can be used to show a quantity which can be divided into segments.
How to construct a pie chart:
- Ensure data is converted into a %. To do this simply divide the segment value by the overall value and then multiply by 100
- Convert % into degrees – as there are 360 degrees in a circle, simply multiply your % by 3.6 to turn it into number of degrees.
- Using a compass draw a circle and mark the centre (no set rule for size – if showing 5-6 categories, a radius of 6cm, if comparing 2 pie charts next to each other – a radius of 4cm)
- Begin by drawing a line from the centre of the circle to the top.
- Mark on each segment in order of size (largest to smallest) using a protractor to calculate the degrees and construct the segments
- Use different shading / colour for each sector and add a key
- Ensure your pie chart has been given a title.
Advantages of Pie Diagrams
- Visually very clear
- Shows % total for each category and provides an easy comparison
- A commonly used technique so easy to understand
- The size of the circle can be made proportional to the total quantity being represented
Disadvantages of Pie Diagrams
- Don’t provide exact numerical data
- Hard to compare 2 data sets
- Best for 3-6 categories otherwise this becomes hard to read
- Can only be used with discrete data
1. In the space below construct two pie diagrams. One showing employment structure in rural areas in 1991 and one for 2006.
Table 1. Employment in Rural Areas
2. Suggest and justify another graphical technique which could be used to show this information.
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PRACTICE QUESTIONS: Pie Diagrams
Practice Question 1a.
Construct a pie-chart to show the following Traffic Count Data for Market Hill, St Ives.
Practice Question 2
2a. What type of energy was used most in 1990? …………………………………………………
2b. In 1990 what % of Europe’s energy was obtained from coal? ………..%
2c. Use Figs 2b and 2c. to describe what is likely to happen to the percentage of coal used between 1990 and 2005.
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2d. Which two types of energy were predicted to increase in importance between 1990 and 2005?
1. ……………………………………………………. 2. ………………………………………………
Complete the pie chart below using the following information about car ownership in the residential area of Aboretum.
No car/van 30%
1 car/van 50%
2 or more cars / vans 20%
GRAPHICAL SKILLS: (viii) Wind Rose / Radial Diagrams
Wind Rose / Radial Diagrams can be put to good use for showing a variety of data, for example:
- Source and volume of migrants coming to the UK from other countries
- Volume and origin of tourists visiting the UK from the 5 top tourist generating countries.
- Distance and origin of people using a particular service.
How to construct a Wind Rose/Radial Diagrams (Desire Lines)
- ensure that you know the total number of people or distance (as appropriate) coming from each direction and work out a scale appropriate for the values in the data (e.g. 1cm = 1 person or 1cm = 0.5km etc.
- establish the central point from which the lines (rays) will begin.
- Draw lines from the centre of the diagram in the correct direction of the flow or service, using the scale which you have decided upon
- ensure a clear North arrow has been added
- The individual lines (rays) should be colour coded and a key provided or the lines labelled
- a clear title must be added to your graph.
Advantages of Wind Rose / Radial Diagrams
- can show the direction as well as volume of a movement (if both width and length of line to scale)
- easy to calculate volume of movement / people from length of rays and use of the key
- provides ability to gain spatial awareness of the data being presented.
Disadvantages of Wind Rose / Radial Diagrams
- If width used to show volume of a movement, where there are large amount of data to be plotted from a central area – it can be more difficult to interpret due to overlaps.
PRACTICE QUESTIONS: Wind Rose / Radial Diagrams
1. Describe the pattern shown
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2. What are the advantages of this technique for showing this data?
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3. What other technique could be used to display this information?
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5. A GCSE student studying glaciation has carried out fieldwork in the Lake District and has identified and recorded the direction that glacial corries face in the Lake District.
Using the data from the table, create a polar graph to show the orientation of corries.
Corrie Orientation in the Lake District
Using your graph, describe the orientation of glaciers in the Lake District. (2 marks)
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GRAPHICAL SKILLS: (ix) Triangular Graphs
Triangular graphs provide a fast and reliable way of classifying a large amount of data for a data set which has 3 parts and is in % adding up to 100%
Advantages
- a large number of data can shown on one graph
- groups can easily be identified
- it is a sophisticated technique as it displays information about several variables.
- dominant characteristics can be shown
- it is possible to draw up classifications
Disadvantages
- can be difficult & time consuming to construct.
- can only be used for data with 3 components given in % form and which adds up to 100%
How to construct a Triangular graph
- There are three axes on a triangular graph, each of which will represent 100% in 10% intervals.
- At each 10% interval, lines are constructed at 60o for the values to plotted.
- The data is then plotted onto the graph – depending on the variable and the axis on which it is based (see the arrow guides on the diagram opposite)
- Label the three axes and add an appropriate title.
PRACTICE QUESTIONS: Triangular Graphs
PRACTICE QUESTIONS: Triangular Graphs
(i) Use the triangular graph above to read off the % values for dissolved load, suspended load and bedload for Carl Beck, Great Eggleshape, Upper Wye and Preston Montfort rivers. Write the % in the table above.
(ii) Complete the graph by adding the data for the River Farlow (already given in the table above)
(iii) What are the advantages of using triangular graphs to represent data?
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(iv) What are the disadvantages of using triangular graphs?
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(v) Suggest two alternative ways of presenting the data given above
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(vi) For one of the alternatives you have suggested evaluate how useful it would be to show this data in comparison to a triangular graph.
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GRAPHICAL SKILLS: (x) Choropleth Maps
Choropleth Maps show relative density per area. These maps are shaded according to a pre- arranged range, with each colour representing a particular range of values
Choosing ‘Ranges’ of data to be mapped:
Data should be arranged in ascending or descending order, enabling you to see the range of results and identify any particular groups. Between 4-6 groupings are ideal and no more than 8, below four means little data is shown, whilst more than six can be hard to interpret as it becomes difficult to tell between the shades
Examples: average annual precipitation; average GNP for countries across the world; population density.
How to construct a Choropleth Map
- Locate an appropriate base map for the study area for which data is being mapped.
- Select the groups to be mapped – start by finding the range of values and devise a shading scale e.g. 0-4, 5-9 etc.
- Choose an appropriate shading to draw the map – this should be in one colour – the highest values should be represented by the darkest colour and the lower values by lighter colours.
- Shade the areas in neatly and ensure a key has been added
- Give your map an appropriate title
Advantages of Choropleth Maps
- Give a good visual impression of the data and changes over space – patterns can easily be identified.
- Easy to complete
Disadvantages of Choropleth Maps
- hides variations within an area
- Choropleth maps also suggest that there are sharp contrasts between areas where the boundaries of the maps are drawn (again – not reflective of reality).
- If too many categories it can be difficult to distinguish between shades.
- Only shows spread of data and not actual amounts
EXAM TIP
As well as making sure you can complete a choropleth map if you are asked, will also need to be able to evaluate their use (advantages and disadvantages). You may also be given a data set and asked to suggest the groups that could be used! Make sure you read the rules for deciding on groups above!
PRACTICE QUESTIONS: Choropleth Maps
1a. Briefly describe the main changes which have taken place in the emissions of gases which have caused acid rain between 1980 and 2000 (3 marks)
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1b. Give 2 advantages of a choropleth map as a data presentation technique (2 marks)
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1c. Name another sophisticated data presentation technique which could be used to present this data (1 mark)
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1d. Why would a histogram be a more suitable alternative than a bar chart for displaying this data?
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2a. Study the data below showing the source countries of migrants to the UK from Eastern European countries between 2004-2006.
Using the data above, draw a choropleth map of the source countries of migrants to the UK from Eastern European countries between 2004-2006.
Describe the pattern shown by the map
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Give a disadvantage of using a choropleth map to show data such as this.
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GRAPHICAL SKILLS: (xi) Proportional Symbols
Proportional symbols are drawn in a proportion that represents the size of the value that is being presented.
Examples: Proportional circles showing the number of British tourists visiting other European destinations; Proportional circles showing population distribution in a particular continent (see example of Africa below)
How to construct a Proportional Circles Map
- Locate an appropriate base map for the data to be plotted
- Calculate the square root of each of the values (this is used to help calculate the radius of the circle of side of a square)
- Identify the range of values and determine a suitable scale – e.g. if scale = 5mm – the size of a circle representing a value of 20 would be 5 x square root of 20.
- Locate point on map, set compass to calculated radius and draw symbol
- Symbols should be shaded and a key and title provided
Sometimes this technique is combined with another data presentation technique to illustrate two sets of data – e.g. proportional pie charts.
This is what is known as a sophisticated data presentation technique – it is likely that this will only appear on higher papers.
Advantages…
- Proportional Symbol maps are not dependent on the size of the area associated with the variable so all areas have equal visual importance
- Provides a quick visual comparison in a spatial context – i.e. differences between places.
Disadvantages…
- If very large amounts of data and subtle variations it can be difficult to provide visually meaningful comparison
PRACTICE QUESTIONS: Proportional Symbols
1. Use evidence from Fig 2b to describe how the river quality varies across England and Wales (2 marks)
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Study the diagram below showing visitors to National Parks in England & Wales.
2. Which National Park is located 275km from the centre of Greater London and 525km from the centre of Tyne and Wear conurbation? (1mark)
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3. Rank the following National Parks in order of the number of visitor days per year. Rank from highest to lowest. (1 mark)
1. ……………………………………………………………………………………………
2. ……………………………………………………………………………………………
3. ……………………………………………………………………………………………
4. ……………………………………………………………………………………………
GRAPHICAL SKILLS: (xii) Scatter Graphs
Scatter graphs can be used to see if two sets of data are related to each other (i.e. if there is a correlation). Having plotted the data as a scattergraph, the pattern of the points can be used to identify if there is a relationship and what the nature of the relationship is (see examples below).
A best fit line can then be drawn onto the graph to indicate the strength of the relationship between the two variables. The closer the points are to the best fit line the stronger the relationship. It is also then possible to identify anomalies. These are points that do not fit the relationship shown.
Examples: GNP and Birth Rate; Distance Downstream and Velocity in a river; Strength of an earthquake on the Richter scale and number of deaths
Advantages
- enables us to identify if a relationship exists between two data sets
- Can be used to identify the nature of any relationship that exists and indicate the strength of it
Disadvantages
- data on both axis must be continuous
- Whilst a line of best fit line can suggest a relationship, a statistical test will be required to test for the significance of the relationship
How to construct a Scatter Graph
- Firstly decide which variable is the independent variable (i.e. affects the other one e.g. wealth) and which is the dependent variable (e.g. Birth Rate)
- The independent variable must be plotted along the x-axis and the dependent variable along the y-axis.
- Based on the range of data values, select an appropriate scale for both the x and y axis
- Plot the measurements for each on to the graph using a cross to mark where the x & y values meet
- Draw a line of best fit which is a STRAIGHT line drawn through the middle of the plotted points, trying to keep an even number of points either side.
- Add a title and label axes
- Identify and try to explain any correlation which exists between the two data sets.
PRACTICE QUESTIONS: Scatter Graphs
Using the data from the table below:
- Plot a scatter graph to show the relationship between the two variables
- Draw a line of best fit on to your graph.
- Describe the relationship shown
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PRACTICE QUESTIONS: Scatter Graphs
Using the data from the table below:
- Plot a scatter graph to show the relationship between domestic water usage (%) and GDP ($) on the graph paper on the following page.
- Is there a correlation between the two variables? What is its nature?
- Add a best fit line to your graph. Circle any anomalies on your graph.
- Describe and give reasons for the pattern that is shown by the graph.
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Study the scattergraph above showing GNP per head and % of population over 15 who can read and write in selected LICs.
To which country does the following information refer?
GNP per Head – US$3,900
% of people over 15 who can read and write – 70% (1 mark)
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To what extent is there a relationship between GNP per head and % of the population over 15 who can read and write? (2 marks)
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Topological Diagrams
Topological maps simplify reality, distorting real distance and direction in order to produce a map or diagram which is simpler to understand.
There are TWO types of typological maps/diagrams:
- Maps showing ROUTES – e.g. the LONDON UNDERGROUND MAP The position of places relative to one another remains the same but the actual distance and direction are not important.
- Maps of AREAS like countries, where the size of the country has been altered as it has been drawn to represent a different value. The example below shows World Wealth as a topological map – the larger the country area represents a greater wealth – provides great visual comparison!
Advantages of Topological Maps
- They condense and simplify information allowing lots of information to be shown in a small space
- They allow inaccuracies as they distort distance and direction
Disadvantages of Topological Maps
- It is not possible to tell the exact direction that you are travelling
- No scale is give so distance can not be calculated
PRACTICE QUESTIONS: Topological Maps
In the topological map below the size of the country has been drawn to represent wealth and therefore is no longer its geographical size.
A topological map of World Wealth
Study the topological map above. Outline and explain the main features of the map. (4 marks)
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Test your Understanding – Making appropriate use of Data presentation techniques
What data presentation techniques could be used to show the following & why?
GEOGRAPHICAL ENQUIRY SKILLS
What may you be asked to do in an exam?
- You may be given a question and asked to develop hypotheses to answer it
- You may need to explain why these are relevant
- You may be asked to suggest what data may be required to test a particular hypothesis
- You may be asked to suggest possible sources of data.
- You may be given an example of data that has been collected and be asked to suggest appropriate ways of presenting this data.
- You may be given data to analyse:
- Describe what you see – what are the main patterns / features?
- Are there any relationships or links between the data
- Are there any anomalies or features which are different?
- Try and give reasons for what you see? Try & back these up by relating to other data
- You may in an exam be given some findings and asked to answer a hypothesis based on these.
- You may be asked to evaluate a particular data presentation technique or the findings of a study.
- Think about: what can be improved; what problems and how might you solve them