Lines Matching full:moon
94 * The average number of solar days from one new moon to the next. This is the time
95 * it takes for the moon to return the same ecliptic longitude as the sun.
108 * for the moon to return to the same ecliptic longitude relative to the
619 * perturbations caused by the other planets, the moon, etc.
1027 // // need a quick result, check the USNO's Sun or Moon Rise/Set Table,
1039 // The Moon
1054 * The position of the moon at the time set on this
1076 // Calculate the mean longitude and anomaly of the moon, based on
1083 // Evection: the sun's gravity affects the moon's eccentricity
1104 // Now find the moon's corrected longitude
1109 // gravitational pull on the moon varies depending on which side of
1110 // the earth the moon is on
1117 // What we've calculated so far is the moon's longitude in the plane
1120 // node, the position on the ecliptic where it is crossed by the moon's
1140 * The "age" of the moon at the time specified in this object.
1142 * current ecliptic longitudes of the sun and the moon,
1153 // Force the moon's position to be calculated. We're going to use
1162 * Calculate the phase of the moon at the time set in this object.
1166 * <li>0.00: New moon
1168 * <li>0.50: Full moon
1183 * Constant representing a new moon.
1193 * Constant representing the moon's first quarter.
1203 * Constant representing a full moon.
1212 * Constant representing the moon's last quarter.
1228 * Find the next or previous time at which the Moon's ecliptic
1248 * Find the next or previous time at which the moon will be in the
1251 * @param desired The desired phase of the moon.
1321 // example, a new moon on the day of the new moon. E.g.:
