Searched refs:nodeLongitude (Results 1 – 3 of 3) sorted by relevance
1066 double nodeLongitude = norm2PI(moonN0 - 0.0529539*PI/180 * day);1068 nodeLongitude -= 0.16*PI/180 * Math.sin(meanAnomalySun);1070 double y = Math.sin(moonLongitude - nodeLongitude);1071 double x = Math.cos(moonLongitude - nodeLongitude);1073 moonEclipLong = Math.atan2(y*Math.cos(moonI), x) + nodeLongitude;
1068 double nodeLongitude = norm2PI(moonN0 - 0.0529539*PI/180 * day);1070 nodeLongitude -= 0.16*PI/180 * Math.sin(meanAnomalySun);1072 double y = Math.sin(moonLongitude - nodeLongitude);1073 double x = Math.cos(moonLongitude - nodeLongitude);1075 moonEclipLong = Math.atan2(y*Math.cos(moonI), x) + nodeLongitude;
1128 double nodeLongitude = norm2PI(moonN0 - 0.0529539*PI/180 * day); in getMoonPosition() local1130 nodeLongitude -= 0.16*PI/180 * ::sin(meanAnomalySun); in getMoonPosition()1132 double y = ::sin(moonLongitude - nodeLongitude); in getMoonPosition()1133 double x = cos(moonLongitude - nodeLongitude); in getMoonPosition()1135 moonEclipLong = ::atan2(y*cos(moonI), x) + nodeLongitude; in getMoonPosition()