... Date M e a n e q u a t o r O r b i t i delta OMEGA' ѓ' OMEGA longitude Dec 29 24.9270 14.2280 0.9532 333.3432 195.0962 5.6753 Jan 8 24.9304 13.7285 0.9204 334.4573 194.5667 137.4393 18 24.9338 13.2290 0.8875 335.5713 194.0372 269.2032 28 24.9370 12.7295 0 ...
... h m s s o ' " " " " h m s Mar 1 211404.710 299.415 -164319.02 1175.94 5.89 5.59 1 ... h m s s o ' " " " " h m s Apr 1 234059.166 273.790 -33858.81 1729.16 5.44 5.17 1 ... h m s s o ' " " " " h m s May 1 15800.398 279.934 104305.33 1617.16 5.18 4.92 1 ...
... m Geocentric coordinates of the Sun: Right ascension = 13340.528 + t * 9.247 + t * t * 0.001 Declination = 94630.464 + t * 53.586 + t * t * -0.009 Parallax = 8.766 Radius = 1556.574 + t * -0.012 Geocentric coordinates of the Moon: Right ascension = 133328 ...
... Total ozone column longitudinal distribution on the border of the Antarctic stratospheric vortex A.V. Grytsai, A.M. Evtushevsky, G.P. Milinevsky, Z.I. Grytsai, A.V. Agapitov // Space science and technology (Ukrainian), 2005, р11, №5/6, P. 5-11 . ...
... m Geocentric coordinates of the Sun: Right ascension = 112359.743 + t * 8.974 Declination = 35246.920 + t * -57.359 + t * t * -0.004 Parallax = 8.739 Radius = 1553.609 + t * 0.011 Geocentric coordinates of the Moon: Right ascension = 112348.572 + t * 152 ...
... h m s s o ' " " " " h m s Jan 1 134817.952 126.563 -93331.41 -709.75 5.22 2.78 1 ... s o ' " " " " h m s Apr 1 162246.905 46.132 -203953.64 -185.68 11.13 5.93 0.78994947 ...
... m s s s s Feb 1 8 44 30.3197 29.6405 0.6657 0.0135 2 8 48 26.8708 26.1958 0.6653 0 ... m s s s s Mar 1 10 34 53.8176 53.1908 0.6163 0.0105 2 10 38 50.3651 49.7462 0.6133 0 ...
... The number of sensitive elements m in array must be twice as large as the number of resolved spectral elements due to the Nyquist theorem, i.e. m = 2R, where R is spectral resolution. ...