Strange Mini Solar System Found 373
starexplorer writes "In 1990, Penn State's Alex Wolszczan found the first exoplanets. But he never got much credit from mainstream researchers, because his planets (3
of them, roughly Earth-sized) orbit pulsars and hold no chance for harboring life. Now he's found a 4th object on the outskirts of the system, SPACE.com is reporting. Call it a planet, call it an asteroid, Wolszczan says, but call the setup a dark, eerie twin of the inner half of our solar system. Also in the same story, news of a brown dwarf just 15 times the mass of Jupiter that has a planet-making disk of stuff around it. Together, more problems for astronomers, who still don't have a basic
definition for the word planet or a firm idea of what separates planets from stars."
TMBG (Score:5, Funny)
"The sun is a mass of incandescent gas
a giagantic nuclear furnace..."
Re:TMBG (Score:3, Insightful)
A gigantic nuclear furnace
Where hydrogen is built into helium
At a temperature of millions of degrees
Yo ho, it's hot, the sun is not
A place where we could live
But here on earth there'd be no life
Without the light it gives
We need it's light
We need it's heat
We need it's energy
Without the sun, without a doubt
There'd be no you and me
The sun is a mass of incandescent gas
A gigantic nuclear furnace
Where hydrogen is built into helium
At a temperature of millions of degrees
The
Re:TMBG (Score:3, Funny)
Re:TMBG (Score:2)
We need it's heat
We need it's energy
Looks like he know English gooder than you do. And you can't edit posts on Slashdot.
Re:TMBG (Score:3, Informative)
--
Evan
Re:TMBG (Score:5, Informative)
The Ballad of Sir Isaac Newton is also not to be missed.
Re:TMBG (Score:2)
-calyxa
Re:TMBG (Score:2)
Yes. It was a cover though. Science Songs [acme.com]. Check out "Why Does The Sun Shine" on the space album.
Superman (Score:3, Funny)
Re:Superman (Score:5, Interesting)
I hope some day humans can see them in person.
Re:Superman (Score:2, Funny)
Re:Superman (Score:2)
Re:Superman (Score:4, Informative)
They are probably a lot more like really big Titans than really small Jupiters. If they could be magically moved to the inner solar system, they would no doubt form huge oceans of water. But it would be difficult for such a planet to actually form that close to the sun in the first place with so much water.
Bruce
Re:Superman (Score:3, Insightful)
Together, more problems for astronomers, who still don't have a basic definition for the word planet
I'm sure the astronomers simply don't care. It's not a problem; definitions don't change anything.
Planets from stars? (Score:5, Informative)
Planet vs planetoid is another matter altogether... I'd love to know if theres been a 'real' standard proposed - regardless of whether pluto/charon are planets/moon or not.
Re:Planets from stars? (Score:5, Informative)
"Working Group on Extrasolar Planets
Defintion of a "Planet"
POSITION STATEMENT ON THE DEFINITION OF A "PLANET"
WORKING GROUP ON EXTRASOLAR PLANETS (WGESP) OF THE INTERNATIONAL ASTRONOMICAL UNION
Created: February 28, 2001
Last Modified: February 28, 2003
Rather than try to construct a detailed definition of a planet which is designed to cover all future possibilities, the WGESP has agreed to restrict itself to developing a working definition applicable to the cases where there already are claimed detections, e.g., the radial velocity surveys of companions to (mostly) solar-type stars, and the imaging surveys for free-floating objects in young star clusters. As new claims are made in the future, the WGESP will weigh their individual merits and circumstances, and will try to fit the new objects into the WGESP definition of a "planet", revising this definition as necessary. This is a gradualist approach with an evolving definition, guided by the observations that will decide all in the end.
Emphasizing again that this is only a working definition, subject to change as we learn more about the census of low-mass companions, the WGESP has agreed to the following statements:
1) Objects with true masses below the limiting mass for thermonuclear fusion of deuterium (currently calculated to be 13 Jupiter masses for objects of solar metallicity) that orbit stars or stellar remnants are "planets" (no matter how they formed). The minimum mass/size required for an extrasolar object to be considered a planet should be the same as that used in our Solar System.
2) Substellar objects with true masses above the limiting mass for thermonuclear fusion of deuterium are "brown dwarfs", no matter how they formed nor where they are located.
3) Free-floating objects in young star clusters with masses below the limiting mass for thermonuclear fusion of deuterium are not "planets", but are "sub-brown dwarfs" (or whatever name is most appropriate).
These statements are a compromise between definitions based purely on the deuterium-burning mass or on the formation mechanism, and as such do not fully satisfy anyone on the WGESP. However, the WGESP agrees that these statements constitute the basis for a reasonable working definition of a "planet" at this time. We can expect this definition to evolve as our knowledge improves."
It looks like this is as close as we're going to get.
Re:Planets from stars? (Score:5, Informative)
All of the bodies get some heat from gravitational collapse as they condense. Once you get enough heat and pressure in a small enough area, you can get Dt-Dt fusion; when there is a "significant" amount, it's called a brown dwarf. However, a relatively small amount of hydrogen is deuterium. As it gets hotter and denser, you begin to get other types of fusion, and you end up with a main sequence star.
The planet/moon distinction becomes even harder when you can't tell exactly what's a planet or star. Once we get to some of these "huge jupiters", there will undoubtedly be debates as to whether there is a measurable amount of Dt-Dt fusion going on or not.
Re:Planets from stars? (Score:2, Interesting)
If you were to say so, then the Earth is a star by that definition. Some of the more complex electrochemical reactions taking place there have resulted in a number of Dt-Dt reactions in the past century or so.
Re:Planets from stars? (Score:3, Funny)
*Tap Tap* I think my babel fish is getting old.
The definitive definition (Score:5, Insightful)
-is a non-fusor
-has sufficient mass to be roughly spherical due to gravity
-orbits a fusor
-isn't already referred to as any other type of object by convention
-isn't associated through orbital composition or other general characteristics with another general group of non-planet objects (i.e. Vesta, though spherical, is associated with other objects known as asteroids, which are not massive enough to be spherical, and are therefore not planets. Vesta also is not a planet, because of the previous rule. It is by convention known as an asteroid, therefore it's not a planet.)
My source for this definition is myself, and I deem it sufficient for sparking a major discussion, and possibly for other things as well.
Re:The definitive definition (Score:3, Insightful)
Not sure if that would work. I could imagine a binary star system with a planet in between them as such with an erratic orbit that causes it to be stretched in an extremely egg shaped way.
It might need to be a more than binary star system to keep balance. IANAA.
Re:The definitive definition (Score:2, Insightful)
Re:The definitive definition (Score:2)
Re:The definitive definition (Score:2)
Re:The definitive definition (Score:2, Interesting)
This is especially significant if recent theories that black holes are actually hollow shells of matter at the event horizon are correct, or if the matter within the event horizon is otherwi
Re:The definitive definition (Score:2)
Re:Planets from stars? (Score:3, Interesting)
Note that it is possible to have very large planets that do not have fusion as you describe but have such a large volume to surface area that they retain heat for a long time. That heat may be enough to actually make the planet glow like a star and warm a retinue of moon-planets. It would look like a dim star. I'd agree it is a planet but that that doesn't mean it cant have its own lifebearing worlds.
Re:Planets from stars? (Score:2)
Mini solar system (Score:5, Insightful)
He's on the faculty at Penn State! Sounds like he must have ticked off the wrong people at some point in his career. Maybe he needs to hire a PR person.
I would say that finding a planet orbiting any star would be significant news, regardless of whether said planet might harbor life.
Re:ok? (Score:3, Insightful)
That sounds more like the creationists' consensus. Scientists are less obsessed with being God's special little unique creation, and are more likely to adopt the view "we haven't seen any but we're sure they must exist".
semantics (Score:5, Informative)
Then again, the earth is not like the sun... (Score:2, Insightful)
Planet Definition (Score:5, Funny)
Let's start with... something.Re:Planet Definition (Score:2)
Re:Let's start with... something.Re:Planet Definit (Score:2)
Re:Planet Definition (Score:2)
And if it was triangular, we could call it a "deltoid"
And if it covered with spiders, we could call it an "arachnoid"
And if it were made of two parts, we could call it a "paranoid" (or perhaps a "schizoid")
And if it is heavily ionic, we could call it a "polaroid".
And if it is extraplanar, we could call it a "soulenoid".
And if it was shaped like a bull, we could call it a "toroid".
And depending on who settled it, we could call it a "cauasoid", a "mongo
Re:Planet Definition (Score:2)
"Plasteroid," huh? I like that. It describes the state in which I came home Friday night. Immediately thereafter, I became "vomitoid." Saturday morning, I had progressed to "hungovertoid."
Re:Planet Definition (Score:2)
(Yes, Earth's moon is round due to gravity, but since it orbits a planet, it is precluded from planetdom itself.)
Re:Planet Definition (Score:3, Funny)
Your name wouldn't happen to be Galactus, would it?
Definition (Score:5, Funny)
Space. Quite a bit of it, I hope.
Oh, you meant what criteria separates planets from stars?
Well, I definitely would much rather live on one than the other. Is that a good definition?
Re:Definition (Score:2)
Re:O/T Re:Definition (Score:2)
Hit - A ball that makes contact with the bat and enters the field of play in such a way that the batter makes it to first base.
Re:O/T Re:Definition (Score:2)
Not so sure about the planet walking around, though.... :-D
That was my defintiion as well (Score:2)
Star vs Planet (Score:3, Interesting)
Stars generate energy (Score:5, Informative)
Scientifically, stars are defined as self-gravitating spheres of plasma in hydrostatic equilibrium, which generate their own energy through the process of nuclear fusion.
Using this simple definition, it seems to apply to most stars out there? Correct me if I'm wrong or if the definition provided isn't accurate enough.
Re:Stars generate energy (Score:5, Informative)
Object smaller than about 13 Jovian masses never exhibit any sustained fusion. Those objects are planets if they orbit a star or a stellar remnant. (They are "sub-brown dwarfs" if they don't orbit a star.)
Objects that sit between the 13 and 25 Jovian mass boundaries are in a grey area. They do exhibit sustained fusion, but only of D+D pairs. There isn't much deuterium around, though, so they don't ever heat up very much. Moreover, since they never engage in H+D->T and H+T->He3 fusion, they don't engage in the fusion reactions which are the signature of "real" stars. These are brown dwarfs -- not planets, because they do heat themselves up with fusion reactions, but not stars, either, because they don't fuse H.
Re:Star vs Planet (Score:3, Insightful)
Let me start by saying that our star's light (electromagnetic radiation) peaks in the visible region of the spectrum (which is why we evolved to be able to see it). This energy comes from nuclear fusion (usually Hydrogen/Deuterium/Tritium -> Helium; it's complicated and you can look it up if you want).
So why doesn't this definition work? Because planets emit their own light too; and I don't mean reflection or reemission. Take Jupiter for example. It's big right? If you dropped a ton of stuff into
Re: (Score:2)
Credit (Score:2, Funny)
No chance of life? (Score:5, Interesting)
I wish people wouldn't say things like this. Humans barely have a grasp on what life really is and what conditions it can exist under, especially off our own planet. So how could we make a judgement that life couldn't exist around a pulsar, despite its homo-sapien threatening conditions.
Re:No chance of life? (Score:2, Informative)
Re:No chance of life? (Score:3, Funny)
Wow, so that explains the fact that virtually all female aliens, whether carbon or, er, silicone-based have large, prominent chest-bumps...
Re:No chance of life? (Score:3, Interesting)
Of course, for non-humans such chest-bumps might fulfil completely different functions... such as huge night-vision eyes or tentacle clusters or egg sacs. All sorts of things.
But if theres anything I've learned from Trek, B5, Farscape etc etc its that theres at least one universal biological constant and thats that all alien females have some sort of rounded, paired protruberances on the chests, usually about the size of rock-melons.
This holds true whether they a
Re:No chance of life? (Score:3, Insightful)
a) People hate alien dolls, they're expensive and look fake. CG like Gollum look considerably better, but is too expensive for a TV show.
b) That leaves about two sexes to be the actors, and alien females that look like males would simply seem "not right" due to X million years of biological programming.
I don't think it is lack of creativity that is the problem. The problem is in bringing them to the screen in a realistic fashion.
Kjella
Re:No chance of life? (Score:5, Funny)
According to whom?
The only life we can be certain of is our own. Even then I sometimes wonder if I really exist. I guess I must because I am posting this, or am I?
Re:No chance of life? (Score:2)
Or was that CowboyNeal?
Simpsons's Alien? (Score:2)
Dr Hibbert: Yes. Is the doctor carbon based or silicon based?
Homer: Uhhh, the second one, Zillifone.
Re:No chance of life? (Score:2)
Like this species of worm [wikipedia.org] found less than a year ago on our own planet. We have no idea what could be out there.
Re:Well I'd be very curious (Score:2)
Good, the planet's inhabitants can put up some big induction coils and generate electricity from the pulsar's field, correct? Pardon my ignorance of such things if the suggestion should turn out to be a dumb one.
Smallest planet (Score:2, Interesting)
From the article:
In one of the discoveries, an object just one-fifth the size of Pluto was called the smallest planet ever found outside our solar system
If it's one-fifth the size of Pluto, wouldn't that make it the smallest planet ever found anywhere?
Re:Smallest planet (Score:2)
How insensitive! (Score:5, Funny)
Please, "African American little person with a weight problem" is a little more appropriate and a lot less offensive, don't you think? Sheesh.
Re:How insensitive! (Score:2, Funny)
Well Obviously (Score:5, Funny)
Go figure.
Re:Well Obviously (Score:2)
Over-rated I can understand. But flame-bait? Did I offend the foil-hats?
I am picturing... (Score:3, Funny)
Quick Reference Chart (Score:2)
Why on Earth does the name matter? (Score:5, Interesting)
Now we've found lots of things that come in between, requiring a different form of classification. The only problem is that people are trying to squeeze the definition of things we know about into a limited naming set.
To name something doesn't mean we understand it and being unable to name something doesn't mean we don't understand it.
People should stop worrying and be happy that we can describe these objects to a higher level of detail than can be described using the existing names we had for things floating in space.
Re:Why on Earth does the name matter? (Score:5, Funny)
Re:Why on Earth does the name matter? (Score:2)
Good point.
The grandparent is missing the fact that speaking and understanding is a fuzzy form of dictionary compression. "Planet" has information value, and so does "star." "Thingies" has hardly any: it just means "not the empty void." The only contextual inference I can make is that it's probably interesting.
What's a table? What's a chair? I could certainly come up with bunches of examples of objects between the two if I wanted, and if I were
What separates planets from stars (Score:5, Funny)
One is on fire and one isn't.
Now hand over my research grant.
Re:What separates planets from stars (Score:3, Funny)
Now we're going to use that money to find out the diference between an ocean and a sea!
Solar? It's not Solar at all, morons (Score:2, Interesting)
The term "mini solar system" is wrong. Solar -the word- is derived from Sol, the name of that thing we call "the sun" (cue CD7 joke about Sun, long a source of amusement) aka that great big yellow ball thing.
It is Sol. If you didn't know it had a name, blame your teachers.
Our happy family of planets is the Solar System. Because we all belong to Sol. There is one Sol and one Solar System in the entire universe.
This newly d
Re:Solar? It's not Solar at all, morons (Score:2)
sorry
Re:Solar? It's not Solar at all, morons (Score:4, Interesting)
He has a habit of using the word "solar" for non-solar topics, and of course the Space.com stories end up on the wire services and are repeated by hundreds of TV talking heads. All that does is make the problem worse. It's bad enough that most people don't even know the name of their star. We don't need them attaching that name to totally unrelated objects.
Here's an unedited quote from him regarding a complaint on the same subject from one of his previous stories:
Thanks for your note. You are correct in the strict sense, but astronomy and language are evolving. We now know of many other systems that look familiar. And many astronomers have come use the term "solar system" to describe other planetary systems. It's becoming a bit like Kleenex in its generic usage.
I'm all for accuracy, but I think also that language is fluid, and if astronomers use the term interchangeably, then I think it's best I do so,
too. I also find it the most convenient term to convey a system of planets with a central star -- and there are hints of lone, wandering planets not
hosted by a star, so a distinction is helpful (at least until the latter situation is sorted out). I appreciate hearing from you because notes like
yours help me frame my approach to writing.
It shouldn't be that hard. (Score:5, Interesting)
It's not as sexy as having a word like "planet", but all this confusion could be eliminated with a basic classification system that took into account distinguishing characteristics besides just it's mass.
As an example, one could define these objects through two primary attributes: The body's mass and the mass of that which it orbits. As I don't have exact mass data at hand, this example will use the following over-simplifications:
S = Solar Mass
G = Gas Giant Mass
R = Rock Planet Mass
M = Minor Mass ( appx Phobos to Pluto )
A = Asteroid Mass
D = Debrit ( 1m or smaller )
Of course, the real system would use exact scientific measurments rather than these crude examples.
Earth = SR ( Rock Planet Mass orbiting a Solar Mass )
Jupiter = SG ( Gas Giant Mass orbiting a Solar Mass )
Pluto = SM ( Minor Mass orbiting a Solar Mass )
Titan = GR ( Rock Planet Mass orbiting a Gas Giant Mass )
etc
etc
You could even create a symbol to represent the galactic center, which could be used in relation to stars and other free roaming bodies. Binary stars can be represented using SS, since they're orbiting each other.
Anyway, the point is that you can not come up with solid definitions of these bodies on mass alone. Take into account other major factors as this example does.
brown dwarf (Score:2, Funny)
My God, man! An oompa loompa!
Re:brown dwarf (Score:2)
Puny humans! (Score:2)
Planets? (Score:2)
Stars are bright at night and Sun(s) are bright during the day.
i always thought atmosphere was important (Score:2)
titan, to me, is worthy of being considered a planet on the same level as earth or venus
and then there are gas giants, stars, and all the little bits (comets, asteorids, etc.)
so to me, phobos and deimos are not moons: they are still asteroids, they just happen to orbit mars instead
and i really believe considering the characteristics of the object separately from what it orbits is way more important
our current nomenclature seems obsessed with what an object orb
Hmm... What makes a planet? (Score:3, Insightful)
A star: Generates energy by sustained, large-scale fusion reactions.
A brown dwarf: A 'failed' star with less than the minimum mass necessary for sustained large-scale fusion, but enough to generate either minimal fusion reactions or to glow by the energy of it's slow gravitational contraction. To be honest, I can't think of any non-arbitrary distinction between a brown dwarf and a large gas giant, just as there is a continuous spectrum between a centrally-planned and free-market economy.
A planet: Is massive enough to form itself into a sphere or ellipsoid and orbits a star in a stable orbit uniquely it's own (ie is not shared with other orbiting bodies, and is circular or some semblance thereof).
A moon: A natural satellite that orbits a planet in an orbit uniquely it's own (re: is not a ring particle).
An asteroid: An object, not any of the above, that orbits a star and does not contain significant deposits of volatile compounds.
A comet: An asteroid that does contain significant amounts of volatile compounds.
By my system, Ceres is an asteroid, because it does not have it's orbit to itself. Pluto is a planet because it can pull itself into a sphere, and possesses it's own (admittedly rather elliptical) orbit. The KBOs are all asteroids or dormant comets, because they either lack the mass to shape themselves or share orbits with other KBOs.
Re:Hmm... What makes a planet? (Score:3, Insightful)
Strictly the speaking, Earth and the Moon are pretty much dual planets (their common center of gravity lies in between them, for instance). When you plot their orbits around the sun, they're very similar, just wobbling around each other twelve or so times per orbit - that's not so much.
Which would make them asteroids in your system, I think.
I called a local college professor to find out... (Score:2, Funny)
ME: Hey professor! What separates planets from stars?
PROFESSOR: Space. Or about 2,500 to 50,000 Kelvin.
ME: Thanks professor!
"Failed Star" is insensitive (Score:2)
why define planet in an all conclusive manner? (Score:2)
otherwise it's an asteroid, comet, celestial body, whatever.
would that mean that this solar system doesn't have 9 planets? yes it would. it doesn't change the fact that we still have 9 celestial bodies in the vicinity.
Why are we trying to hang on to old definitions that don't make sense? Because our ancestors used them? Advance, make progress people.
definitions are easy... (Score:2)
If he's trying to blow it up...it's an asteroid.
If you wish you could throw him into it and watching him vaporize...it's a star.
I call it the willis theory of astronomy
(movies stars...is there any problem they can't solve?)
Stars from plants??? (Score:2)
Mini solar system? (Score:2)
Leave differentiation to the experts? (Score:3, Interesting)
Would The Earth cease to be a planet just because something threw it forever out of our solar system? (Well actually, for now almost certainly yes, 'cos then there'd be no humans to define "planet" ;). At what point does an asteroid have to collect enough dust and become spherical enough to become a planet? Not all planets are spherical - Mercury is more elliptical from memory, thanks to effects of being in close proximity to a star... errr, the Sun. They wouldn't even have to necessarily spin - though that would help with roundness.
Also from recollection of earlier dictionaries, our moon would become a planet (or planetoid?) if some catastrophe yanked it away from the earth, to forever go around the sun - because it wouldn't then be a body orbiting a planet - a simple, but rock solid definition IMHO. Oh but hang on, what about all those little rocks orbiting Earth???
In that respect remember that some definitions are probably inherently transitional, depending on what they are doing. If it's a rock orbiting a sun, it's an asteroid, around a planet then it's a moon, if it's become round (has enough gravitational pull to hold itself together?) then it's a planet if it's going around a Sun - or is it, because what if the planet escapes?
I believe the dictionary definition of "moon" is pretty good already, but as for the rest... I hope you can see what I mean because it gives me a headache! If we set a strict definition of a type of celestial body, and then suddenly we discover that there are so many more bodies that just don't quite fit the category, then what? I don't fancy taking liquid paper to my dictionary. So I will leave splitting those hairs to the experts.
Definition (Score:5, Funny)
Big lump of stuff, roundish, spinning a bit, usually orbiting a, um, star thingy. Might have aliens on, but probably not. Probably.
No Lables. (Score:3, Interesting)
It is rather funny how we humans need a way to pigeon hole everything we observe. And the more we observe the more pigeon holes we need to add. The universe didn't come with labels and many things are don't neatly fall in to a area. I think we have forgotten that language is created by humans and can and should be expanded to explain new things we observe. Maybe english needs a word that explains objects in less of a pigeon hold method and more of a gradient scale. I will use say we use the word. "blong" for something is more then something else like "Jupiter is planet blong star", quaz for something that is in the middle "Pluto is planet quaz asteriod"
Objection! (Score:3, Funny)
In Japanese (Score:3, Informative)
So we live on a hoshi, and all the bright things you see in the sky are also hoshi's.
Re:hmm (Score:2)
Re:Definition (Score:2)
Re:Definition (Score:5, Funny)
Ah, but then we'd have to send...
Duck Dodgers in the 24 1/2th Century!!!
There already are a lot of diamonds. (Score:2)
Re:Don't feel sorry for the astonomers (Score:3, Insightful)
Shakespeare described their plight best
Or, as Robert B. Laughlin, professor of physics at Stanford University and a 1998 Nobel laureate in physics, said [chronicle.com] recently: