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SIM_sun
The Simulation
SIM_sun is a simulation of the Sun's movement across the sky. Given the location (latitude, longitude) of an observer on the Earth, the timezone (offset from UTC), and a starting local time, this simulation calculates the position of the Sun in the sky over time.
Inputs
Variable | Type | Units |
---|---|---|
sun_predictor.sun.observer_latitude | double | d |
sun_predictor.sun.observer_longitude | double | d |
sun_predictor.sun.observer_offset_from_UTC | int | hr |
sun_predictor.sun.local_time | CALENDAR_DATE | -- |
CALENDAR_DATE
Member | Type | Units |
---|---|---|
year | int | -- |
month | int | -- |
day | int | day |
hour | int | hour |
min | int | min |
sec | double | s |
Outputs
Variable | Type | Units |
---|---|---|
sun_predictor.sun.JD | double | day |
sun_predictor.sun.right_ascension | double | d |
sun_predictor.sun.declination | double | d |
sun_predictor.sun.hour_angle | double | d |
sun_predictor.sun.local_sidereal_time | double | s |
sun_predictor.sun.sidereal_time_at_Greenwich | double | s |
sun_predictor.sun.solar_azimuth | double | d |
sun_predictor.sun.solar_elevation | double | d |
sun_predictor.sun.local_time | CALENDAR_DATE | -- |
sun_predictor.sun.utc | CALENDAR_DATE | -- |
NOTE: 0 <= Solar Azimuth < 360 degrees. North = 0, East = 90, South = 180, West = 270.
###Scenarios
####RUN_Winter
####RUN_Summer
References
Meeus, Jean, (1998) "Astronomical Algorithms", Willmann-Bell, Inc. ISBN 0-943396-61-1.