I am finding that when I convert an (Alt, Az) to an (Ra, Dec) and then back with PyEphem, I don't get what I started with. Below is a simple example.
import ephem print ephem.__version__ # '188.8.131.52' gbt = ephem.Observer() gbt.long = '-79:50:23.4' gbt.lat = '38:25:59.23' gbt.pressure = 0 # no refraction correction. gbt.epoch = ephem.J2000 # Set the date to the epoch so there is nothing changing. gbt.date = '2000/01/01 12:00:00' # Should get the north pole right? ra, dec = gbt.radec_of(0, '38:25:59.23') # Not the north pole... error might be abberation. print dec # 89:59:30.5 # Now check internal consistancy by reversing the calculation. pole = ephem.FixedBody() pole._ra = ra pole._dec = dec pole._epoch = ephem.J2000 pole.compute(gbt) # Should get what I started with right? alt = pole.alt # Not what I started with... error unknown. print alt # 38:26:26.7
As noted in the comments, not getting exactly the north pole might just be stellar aberration, although the 30" is more than Wikipedia stated maximum effect of 20".
The fact that I don't get the same thing when I do the reverse calculation is truly puzzling me. Any suggestions?