Introduction to Maps. Cartography The art and science of making maps, including data compilation,...
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Transcript of Introduction to Maps. Cartography The art and science of making maps, including data compilation,...
Introduction to Maps
Cartography• The art and science of making maps, including
data compilation, layout, and design. • Also concerned with the interpretation of
mapped patterns.
A stone tablet found in a cave in Abauntz in the Navarra region of
northern Spain is believed to contain the earliest known
representation of a landscape.
How do we make maps?• Satellite Images
• Aerial Photographs
- vertical - oblique
• Sonar
• Surveying
• Field Study
oblique
vertical
Why Make Maps?
Maps
• A map is a two dimensional description of a specific area of land
• Maps describe in a visual or graphic format certain key features of the territory being examined
Examples:– A road map of Nova Scotia shows many of the important
roads and how they interconnect, as well as the locations of towns and cities, and other popular destinations
– Other maps might show the distribution of birds along the wetlands of the Great Lakes, or the distribution of human populations throughout the world
Maps
• Maps are important tools and are indispensable to geographers
• They help geographers understand in a visual way important things about the surface of the Earth
Examples of how Geographers use Maps: – Where do evergreens grow, where are volcanoes
actively erupting, and where are trout most likely to be found
What are the key components of a
map?• Legend
• Scale
• Bearing
• Grid References
• Contour Lines
• Land/Water distinction
Maps Are Not Perfect• Maps have been used by
humans for hundreds of years.
• As technology has improved, so have the quality and accuracy of maps.
• Ancient maps were usually drawn by explorers.
• It was impossible at that time for anyone to leave the Earth and look down at the huge continents below.
• All they could do was walk around the different land formations, and then do their best to draw what they thought the land probably looked like
The Earth is
ROUND!
Maps Are Not Perfect
• In the modern world, our ability to view and map the Earth is much improved
• However, even today it is impossible to draw a flat map that is 100% accurate
• This is due to the impossibility of recreating the surface of a round planet on a flat map
• The smaller an area that a map represents, the more accurate that map will be
Cylindrical Projection• A cylindrical projection map is the most common type
of map that we see. • Imagine placing the movie screen around the globe in
a cylinder shape. • The projection that results is depicted in this image.• Notice that areas close to the equator have very little
distortion. • However, the closer to the poles that one travels, the
more distorted the map becomes
Cylindrical Projection
• In this example, Greenland appears to be many times larger than it really is.
Conic Projection• A conic projection map is
created by placing a cone shaped screen on a globe
• The resulting projection is more accurate than the cylindrical projection map discussed above
• However, the further we travel down the map, the more distorted and less accurate the map becomes
Plane Projection
• A plane projection is created by placing an imaginary screen directly above or below a globe
• The image that would result is called a plane projection
• This type of map projection is not commonly used
Interrupted Projection• There are many different types of interrupted
projection maps. • These types of maps try to depict the continents as
accurately as possible by leaving blank space in the less important areas of the map, such as in the oceans
Shape Versus Size – Conformality Versus Equivalency
• All map projections must consider which of these two factors are more important:1. Depicting the accurate sizes of objects on the map2. Depicting accurate shapes of these objects?
• The challenge is that you cannot have both. • The more accurately you depict shape, the less
accurate will be your depiction of size, and vice versa.
• A map which portrays shape accurately is called a conformal map• Conformal maps are useful in that they help us understand the true
shape of the items on the map. • A drawback of a conformal map is that it tends to get quite
distorted, especially towards the top and bottom of the map • This creates problems with scale; it may be accurate near the
equator, but the further one travels form the equator, the less accurate the scale becomes
• A map which portrays size accurately is referred to as an equivalent map
• Equivalent maps are very useful because they accurately show the size of objects on the map
• This means that no matter what part of the map we examine, the scale will remain accurate
• However, the drawback of equivalent maps is that the shape of objects is distorted
Hybrid Maps• Many maps are neither entirely conformal nor entirely equivalent • By blending both conformality and equivalency, we can create a map that
balances the distortion of both size and shape• Some map projections are entirely conformal, while others are entirely
equivalent• It is impossible for a map to be both conformal and equivalent but many
maps are a hybrid between conformal and equivalent
Mercator Projection• Cylindrical map projection• Useful for navigation because it maintains
accurate direction• Famous for their distortion in area that makes
landmasses at the poles appear oversized
Mercator Projection
Peters Projection• Cylindrical map projection• Attempts to retain all the accurate sizes of all
the world’s landmasses• Sometimes used as a political statement- that
we should refocus our attention to the tropics, home to large landmasses and many of the world’s poorest countries.
Peters Projection
Fuller Projection• Maintains the accurate size and shape of
landmasses • Completely rearranges direction such that the
four cardinal directions (north, south, east, and west) no longer have any meaning.
Fuller Projection
Robinson Projection• Attempts to balance several possible
projection errors. • Does not maintain completely accurate area,
shape, distance, or direction, but it minimizes errors in each.
• Used by National Geographic
Robinson Projection
Azimuthal Projection• Planar
– Formed when a flat piece of paper is placed on top of the globe and, as described earlier, a light source projects the surrounding areas onto the map.
• Either the North Pole or South Pole is oriented at the center of the map which gives the viewer the impression of looking up or down at the earth.
Azimuthal Projection