Mapping the Earth. Differentiate between planimetric and hypsometric maps List and recognize the...
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Transcript of Mapping the Earth. Differentiate between planimetric and hypsometric maps List and recognize the...
Mapping the Earth
• Differentiate between planimetric and hypsometric maps
• List and recognize the ways in which 3 dimensions can be portrayed on a paper (2 dimensional) map.
• Define/describe map projections
• Identify common projection shapes
• Define/describe an undevelopable surface
• Identify where distortion is minimized and maximized in a projection
• Describe why a Mercator projection distorts area towards the poles.
• Define/describe: cartographic scale, ecological scale, grain, extent, representative fraction
• Explain why maps are models
• Explain the differences between a large and small cartographic scale in terms of detail and surface area represented.
• Match locations according to their latitude and longitudeState the latitude and longitude for Lexington
• State the latitude and longitude for the Tropics of Cancer, Capricorn and for the Arctic and Antarctic circles.
• Explain how time zones are designed
• Explain UTC time
• Describe the difference between geographic and magnetic north
What is a map?
• A map is a model used to convey patterns of physical or human processes and patterns
• Maps are idealized representations of reality.
• General map formats:– Mental or cognitive maps– Hardcopy (paper) maps– Virtual (digital code) maps
Mental maps
Paper maps
Digital maps
Digital maps
Map information
• Planimetric – Two-dimensional information
• Hypsometric – Two dimensions plus a third dimension– Third dimension is typically relief or
topography– Ways of depicting relief
• Shading• Contour lines
9. Maps invokesymbolism
The contour interval is 20 ft. Point elevations are:A = 700 ftB = 740 ftC = 770 ftD = 820 ft
Uphill direction
Slow change in elevation. Contour linesfar apart.
Rapid change in elevation. Contour linesclose together.
Types of contour maps
• Topographic (terrestrial elevation)• Bathymetric (sea floor elevation)• Isohyets (rainfall)• Isopachs (rock or sediment thickness)• Isotachs (wind speed)• Isobars (air pressure)• Geopotential heights (altitude of a given air
pressure)
Topographic map
Match the letter and number
Bathymetric maps (ocean floor relief)
Isobaric maps (air pressure)
Individual lines are called isobars.
Isobars (solid yellow lines)
This is a strong low pressure system, which produced largeamounts of snow and wind across the eastern US.
In an isobaric map, where isolinesare close together, winds are the strongest. Winds are strongest in Virginia, North Carolina,and West Virginia.
Isohyets(precipitation)
Colored areas represent isotachs, lines encompassing areas of equal windspeed. Contour interval = 10 knots
Green lines are geopotential heights, the altitude at which one reaches 300 mb in air pressure. For example, 9720 represents 9720 meters. 300 mb in air pressure is reached when altitude is 9720 meters or about 32,000 ft.
Isotach (wind speed)
Geopotential height maps (constant pressure surface)
The blue lines are geopotential heights. Contour interval is 60 meters
How high would you have to go up to reach 300 mb over Kentucky?
Note that the wind barbs in this map convey the direction of wind flow.
Geopoential heights
Isopach map (contour interval = 5 ft) show the thickness of rock layers or some subsurface feature. In this map they show the thickness of a rock layer known to produce oil. The round symbols are oil well locations and the depths (6000 – 7000 ft) drilled to reach oil. Why would oil drillers want to know the thickness of an oil-bearing rock layer?
Isopach map showingthickness of the limestonecomprising the Florida Aquifer
Isopach map showingthickness of hydrocarbon-bearing strata in western Kentucky.
Map projections
• A projection is any number of cartographic models used to project the Earth’s curved surface as a flat surface
Why don’t we just use a globe instead of flat maps?
• Globes are virtually ideal models of the world:– Correct shape– Correct area– Correct distances– Correct direction
Because, globes are:
• Impractical • Expensive to manufacture• Difficult to plot routes on a
curved surface• Users are overhead of a
single point (perspective view), not an orthographic view (directly overhead of all points)
• Instead, we use:
Map projections
What are the tradeoffs for projecting the globe onto a map?
• A sphere is an undevelopable surface. An undevelopable surface cannot be flattened into two dimensions without some distortion.
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Cylindrical projection
Types of projections
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Conic projection
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Planar projection
Distortion from projection
• Every map projection distorts at least three and sometimes all four, of the following properties: shape, area, distance, and direction
• No projected maps can have both true shape (conformality) and true area (equivalence).
The Mercator projection distorts area (look at Greenland),but shape is true
distortionellipses
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Conformal (true shape) map projection
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Equivalent (true area) map projection
Cartographic scale
Cartographic scale
• Map scale is the ratio of the size of an object on a map to its actual size
• Map scale is expressed with a representative fraction (RF):
– 1:50,000
– 1:10,000
• These can be interpreted as: 1 inch = 10,000 inch or 1 cm = 10,000 cm. Any unit can be used so long as they are on both sides of the equation.
Cartographic scale
• Assuming that you have two maps of the same paper size, which of the two RFs shows the most detail and the smaller surface area?
1:50,000 1:10,000
Impact of cartographic scale on representation of data
1:250,000 1:50,000 1:2,500
Operational scale
Spatial andtemporal dimensionof an object or process
Scale at which observations and measurements take place
Ecological scale
Parallels run EW but are measured NS.
Meridian run NS but are measured EW
Meridians (lines of longitude) converge at poles
The distance spanned by a degree of longitude varies enormously between the Equator and the poles.
The geographic grid
Romford, England Ropsha, Russia Rosales, Mexico Rosetown, Canada
Lat and long for Lexington?
51" 35' N 0" 11' E59" 44' N 29" 53‘ E28" 15' N 100" 43' W 51" 33' N 108" 00' W
Match the locations with their lat and long:
Arctic Circle: 66.5 degrees NAntarctic Circle: 66.5 degrees STropic of Cancer: 23.5 degrees NTropic of Capricorn: 23.5 degrees S
Time zones (24 hours divided by 360 degrees equals 15 degree span for each time zone).
UTC time
Magnetic declination: the difference in angle between magnetic poles and geographic poles (or true north).
True north vs magnetic north