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Subscribe to RSSNo doubt, naked-eye views of the universe are spectacular, but there's much more going on out there than appears in visible light. That's why astronomers routinely observe with a variety of telescopes equipped to capture multiple wavelengths of light across the electromagnetic spectrum.
To showcase how these different wavelengths highlight particular features and processes in the lifecycle of stars, the European Space Agency trained their fleet of space telescopes on the Andromeda Galaxy, also known as M31, and compiled the observations into this video.
To get the star party started, the video shows where the Andromeda Galaxy is in an optical – visible light view – of the night sky and then zeros in on it with a microwave view from the Planck spacecraft. Microwaves are at the long-wavelength end of the spectrum and are sensitive to particles of extremely cold dust – just a few tens of degrees above absolute zero.
After a shift to a close-up optical shot of the galaxy, located about 2.5 million light years away, we are treated to an infrared view observed by the Herschel space telescope, which highlights slightly warmer dust. This dust traces locations in the spiral arms of Andromeda where new stars are being born today, the ESA notes in a media advisory.
The XMM-Newton telescope detects wavelengths shorter than visible light, collecting ultraviolet and X-rays. These show older stars, many nearing the end of their lives and others that have already exploded, sending shockwaves through space. ESA has used this telescope to monitor the core of Andromeda since 2002, revealing many variable stars, some which have exploded as novae.
The ultraviolet views display light from extremely massive, young stars that have a relatively short life span: They exhaust their nuclear fuel and explode as supernovae typically within a few tens of millions of years after they are born. Ultraviolet light is usually absorbed by dust and re-emitted as infrared. That means the areas where ultraviolet light is directly seen are relatively clear, dust free regions of Andromeda.
For more on the Andromeda Galaxy, check out these stories below.
- Andromeda's once and future stars
- The galaxy next door
- Andromeda is a cannibal and heading our way
- NASA captures amazing view of Andromeda
- Andromeda involved in galactic collision
John Roach is a contributing writer for msnbc.com. Connect with the Cosmic Log community by hitting the "like" button on the Cosmic Log Facebook page or following msnbc.com's science editor, Alan Boyle, on Twitter (@b0yle).
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Very nice.
that is really worth watching a couple of times,I do like the idea that it shows me where in the heavens it is....of course what I want to know is where is it now??...where we see it is where it was a couple of million years ago...and earth was also in a very different location then too (that does not matter though, at least I don't think it does)...for the grand picture, I really wonder where it is now...it would help the gravity wave theory (mine).....if one is too think outside the light speed limit (the proverbial box) it helps to think of the universe in terms of what is real, not what appears to be...still nice work by esa and company, great presentation of andromeda....(ok, I will try to beat the smart alec commenters with the not so precise answer to my question of where is andromeda now: CLOSER)...ok, sure...but if some one has a more thoroughly extrapolated coordinate location this is one of the few times I will look back for responses....there is a guy in australia working on the coke bottle googles theory of the universe, surely he has an idea where it should be right now....I have the NRO catalog and plan to one day use it's apparent motion notations to build the REAL map of our local cluster, but man, what a task that will be, and no way to confirm it, yet.
Ray, you've asked the question that I've been asking. Where are the stars now, not 100,000 years ago for this star and 10,000 years ago for that star.
If you get an answer, let me know.