Albers Equal Area Conic Projection - Revision history

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User: The Albers equal-area conic projection, is a map projection that uses two standard parallels to reduce some of the distortion of a projection with one standard parallel.

2018-11-28T21:32:53Z

The Albers equal-area conic projection, is a map projection that uses two standard parallels to reduce some of the distortion of a projection with one standard parallel.

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The Albers equal-area conic projection, is a map projection that uses two standard parallels to reduce some of the distortion of a projection with one standard parallel. Although neither shape nor linear scale is truly correct, the distortion of these properties is minimized in the region between the standard parallels. This projection is best suited for land masses extending in an east-to-west orientation rather than those lying north to south. It is used by the USGS for maps showing the conterminous United States (48 states) or large areas of the United States, as well as for many thematic maps.<ref>What is the Albers Equal Area Conic Projection? [https://www.eye4software.com/hydromagic/documentation/map-projections/albers-equal-area-conic-projection/ eye4software]</ref>

[[File:Albers1.png|500px|Albers Equal Area Conic Projection]]<br />
source: [https://egsc.usgs.gov/isb//pubs/MapProjections/projections.html#albers USGS]

First developed by Heinrich Christian Albers in the early nineteenth century for European maps, its biggest success has been for maps of North America—specifically, for maps for the conterminous United States.<ref>Who developed The Albers Equal area Projection? [http://www.geo.hunter.cuny.edu/~jochen/gtech201/lectures/lec6concepts/Map%20coordinate%20systems/Albers%20Equal%20Area%20Conic.htm CUNY]</ref>

The Albers projection is one of the standard projections for British Columbia, and is the sole standard projection used by the government of Yukon. It is also used by the United States Geological Survey and the United States Census Bureau. Snyder (Section 14) describes generating formulae for the projection, as well as the projection's characteristics. Coordinates from a spherical datum can be transformed into Albers equal-area conic projection coordinates with the following formulas, where λ is the longitude, λ0 the reference longitude, φ the latitude, φ0 the reference latitude and φ1 and φ2 the standard parallels.<ref>Where is the The Albers Projection used? [https://en.wikipedia.org/wiki/Albers_projection Wikipedia]</ref>

'''The Albers Area Projection Fomulae'''<ref>What is the Formulae used for The Albers Area Projection? [http://mathworld.wolfram.com/AlbersEqual-AreaConicProjection.html MathWorld]</ref><br />
Let phi_0 be the latitude for the origin of the Cartesian coordinates and lambda_0 its longitude, and let phi_1 and phi_2 be the standard parallels. Then for a unit sphere, the Albers equal-area conic projection maps latitude and longitude (phi,lambda) to Cartesian (x,y) coordinates

x = rhosintheta
y = rho_0-rhocostheta,

where

n = 1/2(sinphi_1+sinphi_2)
theta = n(lambda-lambda_0)
C = cos^2phi_1+2nsinphi_1
rho = (sqrt(C-2nsinphi))/n
rho_0 = (sqrt(C-2nsinphi_0))/n.

The projection illustrated above takes (phi_0,lambda_0)=(0 degrees,0 degrees) and standard parallels at phi_1=0 degrees and phi_2=60 degrees.

The inverse formulas are

phi = sin^(-1)((C-rho^2n^2)/(2n))
lambda = lambda_0+theta/n,

where

rho = sqrt(x^2+(rho_0-y)^2)
theta = tan^(-1)(x/(rho_0-y)).

===References===
<references/>

===Further Reading===
*Albers Equal Area Conic [^http://desktop.arcgis.com/en/arcmap/latest/map/projections/albers-equal-area-conic.htm|ArcGIS Desktop]
*Europe Albers Equal Area Conic [^http://spatialreference.org/ref/esri/europe-albers-equal-area-conic/|Spatial Reference]

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-The Albers equal-area conic projection, is a map projection that uses two [[standard]] parallels to reduce some of the distortion of a projection with one standard parallel. Although neither shape nor linear scale is truly correct, the distortion of these properties is minimized in the region between the standard parallels. This projection is best suited for land masses extending in an east-to-west orientation rather than those lying north to south. It is used by the USGS for maps showing the conterminous United States (48 states) or large areas of the United States, as well as for many thematic maps.<ref>What is the Albers Equal Area Conic Projection? [https://www.eye4software.com/hydromagic/documentation/map-projections/albers-equal-area-conic-projection/ eye4software]</ref>
+The '''Albers equal-area conic projection''', is a map projection that uses two [[standard]] parallels to reduce some of the distortion of a projection with one standard parallel. Although neither shape nor linear scale is truly correct, the distortion of these properties is minimized in the region between the standard parallels. This projection is best suited for land masses extending in an east-to-west orientation rather than those lying north to south. It is used by the USGS for maps showing the conterminous United States (48 states) or large areas of the United States, as well as for many thematic maps.<ref>What is the Albers Equal Area Conic Projection? [https://www.eye4software.com/hydromagic/documentation/map-projections/albers-equal-area-conic-projection/ eye4software]</ref>
@@ Line 39: / Line 39: @@
-===References===
 <references/>

← Older revision		Revision as of 13:40, 6 February 2021
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−	The Albers equal-area conic projection, is a map projection that uses two standard parallels to reduce some of the distortion of a projection with one standard parallel. Although neither shape nor linear scale is truly correct, the distortion of these properties is minimized in the region between the standard parallels. This projection is best suited for land masses extending in an east-to-west orientation rather than those lying north to south. It is used by the USGS for maps showing the conterminous United States (48 states) or large areas of the United States, as well as for many thematic maps.<ref>What is the Albers Equal Area Conic Projection? [https://www.eye4software.com/hydromagic/documentation/map-projections/albers-equal-area-conic-projection/ eye4software]</ref>	+	The Albers equal-area conic projection, is a map projection that uses two [[standard]] parallels to reduce some of the distortion of a projection with one standard parallel. Although neither shape nor linear scale is truly correct, the distortion of these properties is minimized in the region between the standard parallels. This projection is best suited for land masses extending in an east-to-west orientation rather than those lying north to south. It is used by the USGS for maps showing the conterminous United States (48 states) or large areas of the United States, as well as for many thematic maps.<ref>What is the Albers Equal Area Conic Projection? [https://www.eye4software.com/hydromagic/documentation/map-projections/albers-equal-area-conic-projection/ eye4software]</ref>

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 ===Further Reading===
-*Albers Equal Area Conic [^http://desktop.arcgis.com/en/arcmap/latest/map/projections/albers-equal-area-conic.htm|ArcGIS Desktop]
+*Albers Equal Area Conic [http://desktop.arcgis.com/en/arcmap/latest/map/projections/albers-equal-area-conic.htm ArcGIS Desktop]
-*Europe Albers Equal Area Conic [^http://spatialreference.org/ref/esri/europe-albers-equal-area-conic/|Spatial Reference]
+*Europe Albers Equal Area Conic [http://spatialreference.org/ref/esri/europe-albers-equal-area-conic/ Spatial Reference]