I'm trying to improve the U.S. Naval Observatory's algorithm for calculating the position of the sun, by writing it in a simpler way where all the numbers used have been properly identified - so normal people can understand it as well.

But somehow, the equation of time is off by 27 days. Maybe someone here can spot what's wrong?

Test run:

```
1) Failure:
test_equation_of_time(TestSolarCalculations):
Expected 2011-10-01 10:23:00 UTC, not 2011-10-28 10:59:31 UTC.
2) Failure:
test_suns_declination(TestSolarCalculations):
Expected -3.18, not -3.2087920449753007.
```

New algorithm:

```
# Constants for J2000.0 / 1 Jan 2000 12:00Z:
#
EPOCHS_JULIAN_DATE = 2451545
ANOMALISTIC_YEAR_IN_DAYS = 365.259636
TROPICAL_YEAR_IN_DAYS = 365.2421897
SUNS_MEAN_ANOMALY_AT_EPOCH = degrees_to_radians 357.5291
SUNS_MEAN_LONGITUDE_AT_EPOCH = degrees_to_radians 280.459
SUNS_GEODETIC_PRECESSION = degrees_to_radians 1.915
EARTHS_ORBITAL_ECCENTRICITY = 0.020
EARTHS_ADJUSTED_AVERAGE_RADIUS_IN_AU = 1.00014
EARTHS_APPROXIMATE_ATMOSPHERIC_REFRACTION = degrees_to_radians 0.01671
EARTHS_ECLIPTIC_MEAN_OBLIQUITY = degrees_to_radians 23.439
EARTHS_ECLIPTIC_OBLIQUITY_CHANGE_RATE = degrees_to_radians 0.00000036
def days_from_epoch
@todays_julian_date - EPOCHS_JULIAN_DATE
end
def suns_daily_mean_anomaly_change_rate
degrees_to_radians(360 / ANOMALISTIC_YEAR_IN_DAYS)
end
def suns_mean_anomaly
SUNS_MEAN_ANOMALY_AT_EPOCH + suns_daily_mean_anomaly_change_rate * days_from_epoch
end
def suns_daily_mean_longitude_change_rate
degrees_to_radians(360 / TROPICAL_YEAR_IN_DAYS)
end
def suns_mean_longitude
SUNS_MEAN_LONGITUDE_AT_EPOCH + suns_daily_mean_longitude_change_rate * days_from_epoch
end
def suns_apparent_ecliptic_longitude
suns_mean_longitude + SUNS_GEODETIC_PRECESSION * sin(suns_mean_anomaly) + EARTHS_ORBITAL_ECCENTRICITY * sin(2 * suns_mean_anomaly)
end
def suns_distance_from_earth_in_au
EARTHS_ADJUSTED_AVERAGE_RADIUS_IN_AU - EARTHS_APPROXIMATE_ATMOSPHERIC_REFRACTION * cos(suns_mean_anomaly) - (EARTHS_APPROXIMATE_ATMOSPHERIC_REFRACTION ^ 2 / 2) * cos(2 * suns_mean_anomaly)
end
def earths_ecliptic_mean_obliquity
EARTHS_ECLIPTIC_MEAN_OBLIQUITY - EARTHS_ECLIPTIC_OBLIQUITY_CHANGE_RATE * days_from_epoch
end
def suns_right_ascension
atan2(cos(suns_apparent_ecliptic_longitude) * sin(suns_apparent_ecliptic_longitude), cos(suns_apparent_ecliptic_longitude)) / 15
end
# Time.utc(Time.now.year) => 2011-01-01 00:00:00 UTC
#
def equation_of_time
Time.utc(Time.now.year) + (radians_to_degrees(suns_mean_longitude) / 15 - suns_right_ascension) * 60 * 60 * 24
end
def suns_declination
radians_to_degrees(asin(sin(earths_ecliptic_mean_obliquity) * sin(suns_apparent_ecliptic_longitude)))
end
```

Thanks!

Mats

workingcode, isn't it? – AakashM Oct 28 '11 at 14:15