The predicted January 31 "Super Blood Moon" and what it means

For the first time in over 150 years, we get a supermoon, lunar eclipse, and a blue moon all at the same time.

The supermoon seen at the finish of a lunar eclipse behind the Orthodox church in Turets, Belarus, Monday, Sept. 28, 2015. (AP Photo/Sergei Grits)  While its not often said that a "Super Blood Moon" is coming, that's exactly what we'll get on January 31, for the first time in more than 150 years.


For the first time since March 31, 1866, we'll have a total lunar eclipse that happens during the second full moon of a
calendar month and also happens to occur when the full moon is near the point of its orbit that brings it closer to Earth. That's a blood moon, a blue moon, and a supermoon all at once, but know that while these names can make an event like this sound more dramatic than it appears — it won't be anything like the total solar eclipse of 2017.

Unless you are a regular moon-watcher, you may not notice anything different about this full moon. Yet the remarkable alignment of events should nonetheless serve as a reminder to look up in the the sky and observe our planet's satellite.
"Sometimes the celestial rhythms sync up just right to wow us," a NASA post explains.

How 'super' a supermoon really is

A supermoon is for many astronomers a controversial term. Supermoons occur when we get a full moon near or at the point when the moon's orbit is closest to Earth, also called the perigee of its orbit (the technical term for the event is really perigee-syzygy).

  It's nearly impossible to compare the apparent size of the supermoon with a micromoon from memory, but when seen side-by-side as in this graphic, it becomes clear.
(NASA/JPL-Caltech) 

The commonly used definition of a supermoon is any full moon that falls within the 90% of the lunar orbit closest to Earth. By that criteria, we should get a cycle of several supermoons about every 14 full moons. This upcoming supermoon is the third in a trilogy — the brightest was the recent January 1 supermoon. Another trio comes in 2019.

If you could compare them side by side, most people would see that supermoons really are brighter and slightly bigger than a normal full moon. But just seeing the full moon in the sky isn't enough for most of us to notice that it's different. (The fact that the full moon appears larger when low in the horizon is a different optical illusion.)

  A full moon, known as the Blue Moon is seen over Loosely Row, near Princes Risborough, southeast England, July 31, 2015.
(REUTERS/Eddie Keogh)

Once in a blue moon?

The term blue moon has to do with frequency, and not, unfortunately, appearance. The moon rotates around the Earth every 27.322 days, and we get a new full moon approximately every 29.5 days (those numbers don't match exactly due to elliptical orbits).
There are traditional names like "wolf" or "harvest" for the first full moon of a month each year. But since it's rare to get a second full moon in a month, that moon doesn't have a name, making it a "blue moon." This usually happens about every 2.7 years, though because February has only 28 days, a number of regions will get another blue moon in March 2018.

Total eclipse of the moon

The coolest thing to look for on January 31 will be the total lunar eclipse, when the moon lines up with the Earth and sun so that the sun's light, which normally shines off the moon, is blocked by our planet.
"The moon will lose its brightness and take on an eerie, fainter-than-normal glow from the scant sunlight that makes its way through Earth's atmosphere," according to NASA. "Often cast in a reddish hue because of the way the atmosphere bends the light, totally eclipsed moons are sometimes called 'blood moons.'"
This happens at least twice a year — but in this case, it's the fact that all these events coincide that makes it so cool.
The total eclipse will be visible in the Northern Hemisphere, with totality visible from the western parts of North America to Eastern Asia. Other regions will be able to see some parts of the eclipse.
Because of the timing, you'll need to look at the right moment on the 31st. The partial eclipse begins 11:48 Universal Time (UT), and the total eclipse begins at 12:52 UT and reaches it's maximum at 13:30 UT. For those in the Eastern Time zone, that means the partial eclipse begins at 6:48 a.m., while people in the middle of the country can catch the total eclipse beginning at 6:52 am Central Time.