The Harvest Moon (as with all full moons) officially turns full when it reaches the spot in the sky opposite to (180 degrees from) the sun. In 2016, the Harvest Moon's moment will occur tonight at 3:05 p.m. EDT (12:05 p.m. PDT).
A minor penumbral lunar eclipse will accompany the full moon tonight, and will be visible from Europe, Africa, Asia, Australia and the Western Pacific. The Slooh Community Observatory will offer a live webcast of the eclipse at Slooh.com beginning at 12:45 p.m. EDT (1645 GMT). You can also watch the lunar eclipse webcast on Space.com, courtesy of Slooh.
The Harvest Moon is the one that comes the closest to the autumnal equinox, so this year it falls in September, although occasionally this title can be bestowed upon the October full moon. That will happen 12 times from 1970 to 2020, occurring next in 2017. The 2016 version of the Harvest Moon comes six days prior to the autumnal equinox, although it can occur as early as Sept. 8 (as it did in 2014) or as late as Oct. 7 (as happened in 1987).
Many think that the Harvest Moon remains in the night sky longer than any of the other full moons seen during the year, but that is not so. What sets the Harvest Moon apart from other full moons is that it occurs at the climax of the harvest season, so farmers can work late into the night by the moon's light. This moon rises at about the time the sun sets, and — more importantly — at this time of year, instead of rising its normal average of 50 minutes later each day, the moon seems to rise at somewhat the same time each night.
In actuality, from midnorthern latitudes (+40 degrees), the rising of the moon over a three-night span centered on full phase (Sept. 15, 16 and 17) comes, on average, 38 minutes later each night. The night-to-night difference is greatest for the more southerly locations (Miami, located at latitude +25.8 degrees, sees moonrise come an average of 45 minutes later). Meanwhile, the difference is less at more northerly locations (at Edmonton, Canada, located at latitude 53.5 degrees N, the average difference is only 28 minutes).
The reason for this seasonal circumstance is that the moon appears to move along the ecliptic, and at this time of year, when rising, the ecliptic makes its smallest angle with respect to the horizon for those living in the Northern Hemisphere.
In contrast, for those living in the Southern Hemisphere, the ecliptic at this time of year appears to stand almost perpendicular (at nearly a right angle) to the eastern horizon. As such, the difference for the time of moonrise exceeds the average of 50 minutes per night. At Sydney, Australia (latitude -33.9), for instance, the night-to-night difference amounts to 67 minutes.
Interestingly, for those who live near 70 degrees north latitude, the moon does indeed appear to rise at about the same time each night around the period of the Harvest Moon. And for those who live even farther to the north, a paradox occurs: The moon appears to rise earlier each night! At Barrow, Alaska (latitude +71.3 degrees), for instance, the times of moonrise on Sept. 15, 16 and 17 will be, respectively, 9:05 p.m., 9:02 p.m. and 8:59 p.m. Alaska Daylight Time. So from Barrow, Alaska, the moon will seem to rise an average of 3 minutes earlier each night!
Read more at Discovery News
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