Eckert IV projection

Eckert IV projection of the world.

The Eckert IV projection is an equal-area pseudocylindrical map projection. The length of the polar lines is half that of the equator, and lines of longitude are semiellipses, or portions of ellipses. It was first described by Max Eckert in 1906 as one of a series of three pairs of pseudocylindrical projections. In each pair, the meridians have the same shape, and the odd-numbered projection has equally spaced parallels, whereas the even-numbered projection has parallels spaced to preserve area. The pair to Eckert IV is the Eckert III projection.^[1]

Formulas

Forward formulae

Given a radius of sphere R, central meridian λ₀ and a point with geographical latitude φ and longitude λ, plane coordinates x and y can be computed using the following formulas:

{\begin{aligned}x&={\frac {2}{\sqrt {4\pi +\pi ^{2}}}}R\,(\lambda -\lambda _{0})(1+\cos \theta )\approx 0.422\,2382\,R\,(\lambda -\lambda _{0})(1+\cos \theta ),\\[8pt]y&=2{\sqrt {\frac {\pi }{4+\pi }}}R\sin \theta \approx 1.326\,5004\,R\sin \theta ,\end{aligned}}

where

\theta +\sin \theta \cos \theta +2\sin \theta =\left(2+{\frac {\pi }{2}}\right)\sin \varphi .

θ can be solved for numerically using Newton's method.^[2]

Inverse formulae

{\begin{aligned}\theta &=\arcsin \left[y{\frac {\sqrt {4+\pi }}{2{\sqrt {\pi }}R}}\right]\approx \arcsin \left[{\frac {y}{1.326\,5004\,R}}\right]\\[8pt]\varphi &=\arcsin \left[{\frac {\theta +\sin \theta \cos \theta +2\sin \theta }{2+{\frac {\pi }{2}}}}\right]\\[8pt]\lambda &=\lambda _{0}+x{\frac {\sqrt {4\pi +\pi ^{2}}}{2R(1+\cos \theta )}}\approx \lambda _{0}+{\frac {x}{0.422\,2382\,R\,(1+\cos \theta )}}\end{aligned}}

References

↑ Snyder, John P. (1989). An Album of Map Projections. Professional Paper 1453. Denver: USGS. p. 60.
↑ Snyder, John P. (1987). Map Projections – A Working Manual. Professional Paper 1395. Denver: USGS. pp. 253–258. ISBN 0-226-76747-7. Retrieved 2013-07-24.

External links

Wikimedia Commons has media related to Eckert IV projection.

Eckert IV projection at Mathworld

Map projection

History
List
Portal

By surface

Cylindrical

Mercator-conformal	Gauss–Krüger Transverse Mercator

Equal-area	Balthasart Behrmann Gall–Peters Hobo–Dyer Lambert Smyth equal-surface Trystan Edwards

Cassini Central Equirectangular Gall stereographic Miller Space-oblique Mercator Web Mercator

General perspective	Gnomonic Orthographic Stereographic

Equidistant Lambert equal-area

Bonne	Sinusoidal Werner

Bottomley	Sinusoidal Werner

Cylindrical	Balthasart Behrmann Gall–Peters Hobo–Dyer Lambert cylindrical equal-area Smyth equal-surface Trystan Edwards

Tobler hyperelliptical	Collignon Mollweide

Albers Briesemeister Eckert II Eckert IV Eckert VI Hammer Lambert azimuthal equal-area Quadrilateralized spherical cube

Equidistant in
some aspect

Gnomonic

Gnomonic

Loxodromic

Retroazimuthal
(Mecca or Qibla)

Planar	Gnomonic Orthographic Stereographic

Central cylindrical

Polyhedral

See also

Latitude Longitude Tissot's indicatrix

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