Difference between revisions of "Category:Astronomy"
From Christoph's Personal Wiki
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*[http://search.cpan.org/~rkhill/Astro-Sunrise-0.91/Sunrise.pm Astro::Sunrise] | *[http://search.cpan.org/~rkhill/Astro-Sunrise-0.91/Sunrise.pm Astro::Sunrise] | ||
*[http://search.cpan.org/~brett/Astro-MoonPhase-0.60/MoonPhase.pm Astro::MoonPhase] | *[http://search.cpan.org/~brett/Astro-MoonPhase-0.60/MoonPhase.pm Astro::MoonPhase] | ||
| + | *[http://search.cpan.org/~cphil/Astro-0.69/Astro/Coord.pm Astro::Coord] | ||
| + | *[http://search.cpan.org/~bluefeet/Geo-Distance-0.11/Distance.pm Geo::Distance] | ||
| + | |||
| + | ===Equations=== | ||
| + | ====Geo::Distance==== | ||
| + | ''Note: The <code>d</code> at the end of each of the following equations means "distance".'' | ||
| + | |||
| + | *hsin: Haversine Formula | ||
| + | dlon = lon2 - lon1 | ||
| + | dlat = lat2 - lat1 | ||
| + | a = (sin(dlat/2))^2 + cos(lat1) * cos(lat2) * (sin(dlon/2))^2 | ||
| + | c = 2 * atan2( sqrt(a), sqrt(1-a) ) | ||
| + | d = R * c | ||
| + | ''Note: The hsin formula has improved accuracy over the cos formula.'' | ||
| + | |||
| + | *polar: Polar Coordinate Flat-Earth Formula | ||
| + | a = pi/2 - lat1 | ||
| + | b = pi/2 - lat2 | ||
| + | c = sqrt( a^2 + b^2 - 2 * a * b * cos(lon2 - lon1) ) | ||
| + | d = R * c | ||
| + | |||
| + | *cos: Law of Cosines for Spherical Trigonometry | ||
| + | a = sin(lat1) * sin(lat2) | ||
| + | b = cos(lat1) * cos(lat2) * cos(lon2 - lon1) | ||
| + | c = arccos(a + b) | ||
| + | d = R * c | ||
| + | ''Note: Although this formula is mathematically exact, it is unreliable for small distances because the inverse cosine is ill-conditioned.'' | ||
| + | |||
| + | *gcd: Great Circle Distance. | ||
| + | c = 2 * asin( sqrt( | ||
| + | ( sin(( lat1 - lat2 )/2) )^2 + | ||
| + | cos( lat1 ) * cos( lat2 ) * | ||
| + | ( sin(( lon1 - lon2 )/2) )^2 | ||
| + | ) ) | ||
| + | |||
| + | *mt: Math::Trig great_circle_distance | ||
| + | lat0 = 90 degrees - phi0 | ||
| + | lat1 = 90 degrees - phi1 | ||
| + | d = R * arccos(cos(lat0) * cos(lat1) * cos(lon1 - lon01) + sin(lat0) * sin(lat1)) | ||
==External links== | ==External links== | ||
Revision as of 07:51, 11 July 2007
This article is curently a "stub". This means it is an incomplete article needing further elaboration.
I always welcome suggestions, comments, and criticism. If you have something to contribute to this site, please follow this link: Contributing Information. Thank you!
Contents
Books
- Practical Astronomy With Your Calculator by Peter Duffett-Smith, Third Edition, Cambridge University Press, 1988. ISBN 0-5213-5699-7
- Astronomical Formulae for Calculators by Jean Meeus, Third Edition, Willmann-Bell, 1985. ISBN 0-9433-9609-3
- Planetary Programs and Tables from -4000 to +2800 by Pierre Bretagnon and Jean-Louis Simon, Willmann-Bell, 1986.
- Celestial BASIC: Astronomy on Your Computer by Eric Burgess, Revised Edition, Sybex, 1985. ISBN 0-8958-8087-3
Programs, algorithms, and code
Equations
Geo::Distance
Note: The d at the end of each of the following equations means "distance".
- hsin: Haversine Formula
dlon = lon2 - lon1 dlat = lat2 - lat1 a = (sin(dlat/2))^2 + cos(lat1) * cos(lat2) * (sin(dlon/2))^2 c = 2 * atan2( sqrt(a), sqrt(1-a) ) d = R * c
Note: The hsin formula has improved accuracy over the cos formula.
- polar: Polar Coordinate Flat-Earth Formula
a = pi/2 - lat1 b = pi/2 - lat2 c = sqrt( a^2 + b^2 - 2 * a * b * cos(lon2 - lon1) ) d = R * c
- cos: Law of Cosines for Spherical Trigonometry
a = sin(lat1) * sin(lat2) b = cos(lat1) * cos(lat2) * cos(lon2 - lon1) c = arccos(a + b) d = R * c
Note: Although this formula is mathematically exact, it is unreliable for small distances because the inverse cosine is ill-conditioned.
- gcd: Great Circle Distance.
c = 2 * asin( sqrt( ( sin(( lat1 - lat2 )/2) )^2 + cos( lat1 ) * cos( lat2 ) * ( sin(( lon1 - lon2 )/2) )^2 ) )
- mt: Math::Trig great_circle_distance
lat0 = 90 degrees - phi0 lat1 = 90 degrees - phi1 d = R * arccos(cos(lat0) * cos(lat1) * cos(lon1 - lon01) + sin(lat0) * sin(lat1))
External links
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