The Blood Moon Super Moon!
|Flickr/ NASA’s Marshall Space Flight Center|
By Paola Salazar
Families and friends across the globe were watching the stars and sky Sunday night, whether cozily on porches and balconies, in the streets, at museums or at observatories, for a view they won’t get for quite a while–the blood moon super moon! We dare you to say that five times fast.
But among our curios explorers at the Cambridge Science Festival, some may have been wondering–what exactly causes a blood moon, what makes this one a super moon or just generally, what is this big red thing in the sky where our “normal” moon should be?!
Fear not, for we are going to break it down for these curious minds right here, right now.
If we pretend this is an equation, the layout is like this:
Super Moon + Total Lunar Eclipse = Blood Moon Super Moon
But before we get into the nitty gritty details behind that, first we need a briefer on how the moon moves.
The moon and Earth both have elliptical orbits, meaning they move around in a not-quite circular fashion. The Earth revolves around our sun, while the moon completes a revolution around the Earth every 27 or so days.
Now, moving in an elliptical orbit also means that the moon and Earth don’t have a set distance between each other. The average distance between the earth and the moon is 384,600 kilometers.
However, the distance varies at two points in particular–the apogee and the perigee. While not exactly the same, this is generally like the shape of an egg–one side is “taller,” or further away (the apogee), while the end opposite that is closer to the center, or the “perigee.”
The other thing is, the moon doesn’t create its own light, it simply reflects the light that hits it from the sun. As the moon changes position around the earth, the side of the moon facing us reflects a different amount of sunlight as the light bounces off the surface of the moon–this is why every month, you can see a difference in what the moon looks like when it’s waning, waxing, full and a new moon.
The amount of light and shade of color that we see from the moon depends not only on the postion of the moon, but on the type of rays that hit the moon. This is a form of “filtering” of colors that occurs because of the particles in our atmosphere at the time of night.
Every so often, the alignment of the sun, moon, and Earth, and the type of light that hits the moon during these alignments, result in some really neat tricks that can be visible to the naked eye (although sometimes, we need to wear protective sunglasses to see it).
The Super Moon
|source: DeviantArt | Nope, not that kind of Super Moon.|
When the moon is in perigree, and the closest to Earth that it ever gets, we see it bigger and brighter than ever! The moon, at a distance of 363,700 km away, appears to be about 14% bigger from our perspective, and about 30% brighter. The size and brightness of it is what led to astronomers dubbing it the super moon!
When the moon is the furthest away from Earth, or in apogee, it’s at about 405,600 km away and is the smallest that we can see it, appearing dimmer because of it. For these reasons, when the moon is in apogee, we refer to it as a minimoon.
Total Lunar Eclipse (AKA Why was the moon red?)
A total lunar eclipse occurs every two and a half years when the Earth is aligned right between the moon and sun. While you might think that because the Earth is bigger than the moon, the moon should be entirely dark, the reason we don’t see that happening is because the sun is, of course, even bigger than the Earth!
Will you be among them?
|NASA/Lauren Harnett/Wikimedia Commons|
Food for Thought: