Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are...

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Map Projections • The Earth is round. (3D) • Maps are flat. (2D) • This is a problem. – Projections are designed to transfer data from a sphere onto a flat piece of paper. – Information is lost or distorted in the process. – Different projections distort different data and can be better for certain uses but not others. All maps are inaccurate!

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Transcript of Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are...

Page 1: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Map Projections• The Earth is round. (3D)• Maps are flat. (2D)• This is a problem.

– Projections are designed to transfer data from a sphere onto a flat piece of paper.

– Information is lost or distorted in the process.– Different projections distort different data and

can be better for certain uses but not others.

All maps are inaccurate!

Page 2: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

There are three standard projection methods: cylindrical, conical, and planar.

Page 3: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Cylindrical Projection

• Most common

• Little distortion near equator

• A lot of distortion near the poles

Page 4: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

The conical projection is more accurate than the cylindrical but the farther down the map you go, the

more distortion there is.

Page 5: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Planar projections are uncommon.

Page 6: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

The Mercator Projection is the most common. It is a cylindrical projection. Areas near the poles are exaggerated. Greenland ends up looking eight times larger than South America!

Page 7: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Mercator Projection

used to plot a straight course between any two points

Page 8: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Polar Projections are conical projections. They are also common and are excellent for

plotting airline routes but they exaggerate lands near the equator.

Page 9: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Interrupted Projections 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.

Page 10: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Winkel Tripel Projection• adopted by the National Geographic Society in 1998• offers a pleasing visual balance between shape and

scale distortion

Page 11: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Compare Mercator Living Earth and Mercator Physical

Page 12: Map Projections The Earth is round. (3D) Maps are flat. (2D) This is a problem. –Projections are designed to transfer data from a sphere onto a flat piece.

Unusual solutions to the problem!


Georeferencing & Map projections...Summary Georeferencing Geometry Plane projection (flat earth model) vs. Spherical projection (round earth model) Coordinate systems Geographic coordinates

Georeferencing & Map projections...Summary Georeferencing Geometry Plane projection (flat earth model) vs. Spherical projection (round earth model) Coordinate systems Geographic coordinates

World History Toolbox – Lesson 6. Cartographers use mathematical calculations to make projections in order to turn a sphere (Earth) into a flat representation.

World History Toolbox – Lesson 6. Cartographers use mathematical calculations to make projections in order to turn a sphere (Earth) into a flat representation.

emotional sphere physical sphere social sphere Intellectual sphere spiritual sphere.

emotional sphere physical sphere social sphere Intellectual sphere spiritual sphere.

2/25 Do now Sphere A has a positive charge of 9 C. Sphere B and sphere C are neutral. Sphere A is used to charge sphere B by conduction. Sphere A is used.

2/25 Do now Sphere A has a positive charge of 9 C. Sphere B and sphere C are neutral. Sphere A is used to charge sphere B by conduction. Sphere A is used.

Map Projections - ICSM · Map Projections A map projection is used to portray all or part of the round Earth on a flat surface. This cannot be done without some distortion. Every

Map Projections - ICSM · Map Projections A map projection is used to portray all or part of the round Earth on a flat surface. This cannot be done without some distortion. Every

Solids In Contact Rotation. Notes Locate the point of contact between the sphere C and the given cone. Also determine the projections of the a new sphere,

Solids In Contact Rotation. Notes Locate the point of contact between the sphere C and the given cone. Also determine the projections of the a new sphere,

Map Projections - MIT OpenCourseWare€¦ · Map projections … Define the spatial relationship between locations on earth and their relative locations on a flat map Are mathematical

Map Projections - MIT OpenCourseWare€¦ · Map projections … Define the spatial relationship between locations on earth and their relative locations on a flat map Are mathematical

UCSD Cognitive Sciencesereno/papers/SphereBeltDepth99.pdf · flat concave front a back flat, concave) and whether the sphere appeared in front of or behind the belt (in trials with

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18 CHAPITRE 1 ACTUALITÉS - L'Observatoire de … · Mercator La limite Nord-Sud selon différentes projections Sphere equivalent Peters ETRS Pour autant, le Forum politique de haut

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NEW JERSEY DEPARTMENT OF LABOR PROJECTIONS SYSTEM Industry Projections Occupational Projections Population Projections Labor Force Projections Labor Force.

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Celestial Sphere. Local View On earth objects are usually viewed in flat Euclidean geometry. From the earth the stars appear to be fixed on a sphere that.

Celestial Sphere. Local View On earth objects are usually viewed in flat Euclidean geometry. From the earth the stars appear to be fixed on a sphere that.

Because the Earth is a sphere and maps are flat, there will always be some degree of distortion.

Because the Earth is a sphere and maps are flat, there will always be some degree of distortion.

Finite Sphere Packing and Sphere Covering*

Finite Sphere Packing and Sphere Covering*

A Publication for ANSYS Users Contents...SUSEL that selects individual surfaces. Currently the surfaces can be flat or a sphere of specified radius. Flat surfaces use the working plan

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MAP PROJECTIONS Methods of presenting the curved surface of the Earth on a flat map.

MAP PROJECTIONS Methods of presenting the curved surface of the Earth on a flat map.

PROJECTIONS CONICAL PARALLEL PROJECTIONS OBLIQUE ...physicsteacher.ca/Science and Technology 3/2017-2018/Projections... · projections parallel projections orthographic projections

PROJECTIONS CONICAL PARALLEL PROJECTIONS OBLIQUE ...physicsteacher.ca/Science and Technology 3/2017-2018/Projections... · projections parallel projections orthographic projections

Map Projections. Putting a sphere on a flat surface messes up certain realities: ‐Distance ‐Direction ‐Shape ‐Area Each map keeps one or two things true.

Map Projections. Putting a sphere on a flat surface messes up certain realities: ‐Distance ‐Direction ‐Shape ‐Area Each map keeps one or two things true.

Map Projections - GBV · 11-22 Conformal mapping (transverse Mercator projection) 287 11-23 Equal area mapping (transverse Lambert projection) 287 12 "Sphere to cylinder": obliqu

Map Projections - GBV · 11-22 Conformal mapping (transverse Mercator projection) 287 11-23 Equal area mapping (transverse Lambert projection) 287 12 "Sphere to cylinder": obliqu

Map Projections & Coordinate Systems · 2017. 9. 12. · Projections –transformation of curved earth to a flat map; systematic rendering of the lat. & lon. graticule to rectangular

Map Projections & Coordinate Systems · 2017. 9. 12. · Projections –transformation of curved earth to a flat map; systematic rendering of the lat. & lon. graticule to rectangular

Map Projections Problem: Project a sphere onto a flat surface. Scale Alternative projection methods Distortions Terminology of map projections Maps - Resource.

Map Projections Problem: Project a sphere onto a flat surface. Scale Alternative projection methods Distortions Terminology of map projections Maps - Resource.