Hammer retroazimuthal projection

The front hemisphere of the Hammer retroazimuthal projection. 15° graticule; center point at 45°N, 90°W.

The back hemisphere of the Hammer retroazimuthal projection. 15° graticule; center point at 45°N, 90°W.

The Hammer retroazimuthal projection is a modified azimuthal proposed by Ernst Hermann Heinrich Hammer in 1910. As a retroazimuthal projection, azimuths (directions) are correct from any point to the designated center point.^[1] Additionally, all distances from the center of the map are proportional to what they are on the globe. In whole-world presentation, the back and front hemispheres overlap, making the projection a non-injective function. Given a radius R for the projecting globe, the projection is defined as:

x = R K \cos \varphi_1 \sin (\lambda-\lambda_0)

y = -R K [\sin \varphi_1 \cos \varphi - \cos \varphi_1 \sin \varphi \cos (\lambda-\lambda_0)]

where

K = \frac{z}{\sin z}

and

\cos z = \sin \varphi_1 \sin \varphi + \cos \varphi_1 \cos \varphi \cos (\lambda - \lambda_0)

The latitude and longitude of the point to be plotted are φ and λ respectively, and the center point to which all azimuths are to be correct is given as φ₁ and λ₀.

References

↑ Lua error in package.lua at line 80: module 'strict' not found.

External links

[Snyder-1] Lua error in package.lua at line 80: module 'strict' not found.

[1]

Hammer retroazimuthal projection

See also

References

External links

Navigation menu

Personal tools

Namespaces

Variants

Views

More

Search

Navigation

Tools