def test_true_rightasenscion(): assert_quantity_allclose(sun.true_rightascension("2012/11/11"), 226.550 * u.deg, atol=1e-3 * u.deg) assert_quantity_allclose(sun.true_rightascension("2142/02/03"), 316.466 * u.deg, atol=1e-3 * u.deg) assert_quantity_allclose(sun.true_rightascension("2013/12/11"), 258.150 * u.deg, atol=1e-3 * u.deg)
def test_true_rightasenscion(): assert_quantity_allclose(sun.true_rightascension("2012/11/11"), 359.318 * u.deg, atol=1e-3 * u.deg) assert_quantity_allclose(sun.true_rightascension("2142/02/03"), 359.328 * u.deg, atol=1e-3 * u.deg) assert_quantity_allclose(sun.true_rightascension("2013/12/11"), 359.102 * u.deg, atol=1e-3 * u.deg)
def test_true_rightasenscion(): assert_array_almost_equal(sun.true_rightascension("2012/11/11"), 359.318 * u.deg, decimal=3) assert_array_almost_equal(sun.true_rightascension("2142/02/03"), 359.328 * u.deg, decimal=3) assert_array_almost_equal(sun.true_rightascension("2013/12/11"), 359.102 * u.deg, decimal=3)
def test_true_rightascension_J2000(): # Validate against JPL HORIZONS output t = Time('1992-10-13', scale='tdb') assert_quantity_allclose(sun.true_rightascension(t, equinox_of_date=False), Angle('13h13m53.65s'), atol=0.01*u.arcsec)