Newly Found Planetoid Possibly Larger than Quaoar 46
I am Jack's username writes "A newly discovered planetoid (Google news cluster) 2004 DW in the Edgeworth-Kuiper belt, where some think objects larger than Pluto exist, may be larger than Quaoar - making it the second largest known trans-Neptunian object and 18th largest object in the solar system."
Quaoar (Score:3, Funny)
Re:Quaoar (Score:3, Funny)
Re:Quaoar (Score:3, Insightful)
And soon, no one will.
Re:Quaoar (Score:3, Insightful)
And soon, no one will.
I have to disagree - I think it's more like:
The Hubble Space Telescope, coming soon to a backyard near you!
Almost (Score:5, Funny)
Re:Quaoar (Score:4, Informative)
Re:Quaoar (Score:1)
A few more letters so I can hit the triple word score square: Zzyzzyxx [klov.com]
Re:Quaoar (Score:1)
Re:I'm sorry (Score:1, Insightful)
Question for the astronomers among us... (Score:5, Interesting)
Things I don't know: 1) density of KBOs vs stars 2) apparent speed of KBOs relative to the stars beyond them. 3) The average length of time any star is in a field of observation at a major telescope.
Actually, there's probably a lot more I don't know, that's just what comes to mind at the moment.
Re:Question for the astronomers among us... (Score:4, Informative)
You need some mechanism to "increase" the apparent area of the (in this case KBO.) Unfortunately, KBOs are just small rocks, with not too much interesting going on. (Planets that eclipse their own star are easier to see, because they are fixed in the angle they explore on the sky relative to the star.)
If you're looking for some kind of "eclipse" effect on the background stars, the best way to increase the effective area of your object is to make it heavy enough that it can gravitationally lens something behind it. The lensing effect increases the angular size of the "sweet spot." See the various MACHO searches [ucsd.edu].
Re:Question for the astronomers among us... (Score:4, Informative)
That said, the odds of a KBO occulting a star or, perhaps better, any KBO occulting any star aren't all that tiny. Pluto occults stars on occasion. That's how we get data on the atmospheric structure, after all. Admittedly, astronomers keenly search for these occultations, but they do happen every few years or so. Now, mind you, Pluto is a big KBO so that it has a much higher probablity of passing in front of a star than most of the others. Recall that it is, in fact, one of the very few KBOs that have been resolved in our images. (I believe that Quaoar, Charon, Varuna, and perhaps one or two others have been. It's because we have not resolved many of these that we don't know the albedoes/sizes of KBOs that well.)
The next question is why should we look for occultations? Using them as a means to detect KBOs is probably a waste of time. Occultations can give you a profile of the atmosphere which might not be interesting for most KBOs, although a non-detection would at least tell us something about KBOs in general. (i.e. - That they don't have atmospheres. Not that I think people would be generally stunned by this.)
Freeman Dyson, KBO's, and small telescopes (Score:3, Informative)
While Dyson was more of a mathematical theory person, his claim to fame is in physics, and along the school of "when your ownly tool is a hammer,
Re:Question for the astronomers among us... (Score:2, Interesting)
However, such events are rare, even for close-by asteroids. The angular diameter of far-away Kuiper-Edgeworth objects is so small that they almost never pass in front of a catalogued star.
-The basic idea is sound,
Re:Question for the astronomers among us... (Score:2)
I would think that the star would have to not only be observed at the right moment in time, but would have to be observed at significant magnification. You would need to be able to observe which direction the object was moving (with or oposite the earth's orbit and rotation) and h
Re:Question for the astronomers among us... (Score:3, Interesting)
namers (Score:4, Funny)
"After the object is numbered, then the discoverers (that's us) have one decade to propose a name to the Internation Astronomical Union. There are even more rules about the name of the object. 2004 DW, for instance, must be named after an underworld diety because it is in a Pluto-like orbit."
Okay, everyone
Uadjet! (Score:2)
An Egyptian goddess of the underworld who endows justice and truth. She is pictured as a cobra (occasionally winged or crowned), or as a snake with a womans face. (And yes, I know she's sometimes called "Wadjet" but thats just not as cool as "Uadjet"
Thats where my vote goes anyways!
Re:Uadjet! (Score:2)
Re:namers (Score:1)
I know it's the thrill of geek suspense that drives this naming nonsense, but geeze, it's just a name. Call the rose a stench-blossom and name the planet Fred.
Yeah... Fred... He was the god of underwear I think...
Re:namers (Score:2)
Re:namers (Score:1)
Starchild [nasa.gov]
For background on current names:
Names past [usgs.gov]
How names for features are selected:
Categories [usgs.gov]
And the best explanation you're likely to get of how planets get their names:
Cornell University [cornell.edu]
Re:namers (Score:2)
I can't imagine that this "rule" could hold. If the Kuyper Belt contains more objects than the Asteroid [atariage.com] Belt, I would think we'd run out of ancient gods of the underworld.
We might be able to extend the idea by naming trans-Plutonian objects after fallen angels and demons [steliart.com], but I'm afraid some of my fellow Christians -- the ones whose belief system depends on a demonic opponent -- would be seriously troubled
Re:namers (Score:2)
Hell, pull a half dozzen tiles out of a scrabble bag containing Swahili tiles and you'll get a better name than Quaoar.
-
Re:namers (Score:2)
Re:namers (Score:1)
I second the motion! Although to be perfectly accurate, Sauron wasn't the god of the underworld in tolkien-land. That was mandos. Sauron was originally a maia of limited importance, until he inherited melkor's place (after melkor was cast into the void).
Regardless, I like it.
Re:Quaoar? (Score:2)
"It's a name I made up. Double A actually."
Comparing trans-Neptunian objects (Score:3, Interesting)
So, is it really all that meaningful to compare them based on their distance from us today? If they all share the same period don't they all have the same, um, I don't know what it would be called... But their kinetic energy per unit mass would all be the same.
If they all have the same period, then wouldn't their average distance from the Sun be directly proportional to the eccentricity of their orbit?
Re:Comparing trans-Neptunian objects (Score:2)
Mr. Kepler says a big nope. He says that the orbital semi-major axis(call it the average distance from the Sun, although it's not technically a time-averaged distance), a, relates only to the period, p, as a^2=p^3, measureing a in AU and p in years. Eccentricity don't enter into it. (It does enter into the time-averaged distance, although I'm going to go o
Not good news - alien to US (Score:2)
Aljazeera u.f.o.
P.O. Box 22300
New Doha - Qoaoar
Marketing
Tel: +974 - 438 2705
Fax: +974 - 442 6865
E-mail: et-marketing@aljazeera.net
Richard Hoagland found a face at 19.5 degrees (Score:1)
chance that amateur discover kuiper belt object (Score:2, Insightful)
Amateur astronomers discover new comets all of the time. But what is with kuiper belt objects? Short period comets (less than 200 year orbits) comets originate in the Kuiper Belt, located inside and outside of Neptune's and Pluto's orbits like Kuiper belt objects. But comets have very eccentric orbits so they come in interior part of solar system and then they become brighter so amateurs could discover them (the most comets discovered by astronomers amateur at the moment of discovery have apparent magnitud