Is {pluto|sedna} A Planet?

Dr. Zowie writes "NASA's announcement last week of Sedna's discovery reignited the debate over whether Pluto is a planet. Dr. Alan Stern a noted planetary scientist and leader of the New Horizons mission to Pluto, pours on some gasoline with this article in which he skewers the various arguments against Pluto-as-planet. Choice quotes include 'You wouldn't deny a chihauhau a place among dogs because it is too small,' and 'if your brain was so completely full of names of people that it just couldn't take any more, would anyone new who you met after that, therefore not be a person?'"

I love this stuff

[Perianwyr+Stormcrow]

Although you have to admit that we NEED a planet named after the god of the dead. Perhaps we can put some trash out there and christen it.

Re:I love this stuff

Well Pluto's moon is called Charon. The ferryman of the dead. Is that good enough for you.

Re:I love this stuff

[Guppy06]

"The tomato=fruit idea was introduced long after the classification as a vegetable as well established.

The reason for the reclassification of tomatos by the biologists was that they started to buy into the evolutionary classification schemes. So the taxonomy was redefined to fit the new theory."

What the FUCK have you been smoking in your pipe?

Fruit (froot) [n]--the ripened reproductive body of a seed plant

What's the seed-bearing part of an apple tree? An apple. The seed-bearing part of an orange tree? An orange. And what part of a freakin' tomato plant holds the seeds?

A carrot is a vegetable. Celery is a vegetable. Lettuce is a vegetable. Potatoes... who the fuck cares about a potato is. But just because people are more likely to slice it up and put it in sandwiches or salads than eat it whole doesn't make a tomato a vegetable. Heck, some salads include slices of apples; does that make an apple a vegetable?

And the sad thing is I bet you're a biology major as well.

Re:I love this stuff

[Unknown+Kadath]

I cite Cecil Adams of The Straight Dope, font of all knowledge, to say with authority:

The tomato is botanically a fruit.

Brontosaurus never existed.

And you can blame the Greeks for the continent thing.

That Cecil! Is there anything he doesn't know?

-Carolyn

Asteroids?

[doormat]

Does that mean every comet/asteroid that orbits the sun is technically a planet? If you throw out the size requirement, what other criteria remain for designating something a planet?

Re:Asteroids?

[korielgraculus]

Th proposal in the article is that every body that is rounded by it's own gravity (apparently this happens at a few hundred kilometres) should be considered a planet. Actually sounds a reasonable definition to me.

Re:Asteroids?

[Xzzy]

Honestly, who cares.

It's not like there's some legal reason to have the definition of a planet rigidly defined, it doesn't effect the money anyone gets, it doesn't influence political boundaries, and it won't get anyone out of jail.. so who cares? :P

If it's big, it's a planet. If it's not big, it's an asteroid. If it's not big and made of ice, it's a comet.

Might as well debate which text editor is bettor or whether we should be putting GNU in front of Linux.. it's such a silly thing to discuss it baffles me this shows up in the news so often.

Re:Asteroids?

[Brad+Mace]

I think the geometry of the orbit should be considered. Pluto's orbit is tilted about 30 degrees relative to the rest of the planets, and is more elliptical, which I think is a stronger argument against it than being small. Sedna's orbit is so eliptical that calling it a planet just doesn't seem right.

People?

[Tackhead]

> if your brain was so completely full of names of people that it just couldn't take any more, would anyone new who you met after that, therefore not be a person?

The two-legged things in my office have names?! Not just email addresses?

Mmmm... Flamewar..

".. pours on some gasoline with this article..."

You haven't seen squat until you've seen astronomers argue.

Requirements? Look to gravity!

[Pi_0's+don't+shower]

How about the simple argument that planets are gravitationally strong enough to pull themselves into nearly spherical objects, whereas asteroids are not. Pluto, BTW, Sedna, and many of the largest moons can all do this.

I also think, for the record, that if something as large as Luna, or Titan, or Europa were out floating in space orbiting the sun and not another planet, they would be considered planets too.

Well..

[LordK3nn3th]

A problem with this is that there really is no clear-cut differentiation between "planet" and "planetoid". There's no qualifying size-- it's more subjective than anything. Almost like different species: we all differ genetically, yet a species is a generally-recognized "set".

One agreed-upon qualification is being formed round by its own gravity. I'm not sure if that applies to Sedna.

Re:Well..

[PatientZero]

It's a body of matter vastly more massive than other matter in the vicinity.

From the article:

Location Rules. "Let's use an object's location as the criterion to establish or reject it from planethood."

The most common form of this idea is to classify an object as a planet if it is the largest thing in its region. By this criterion, objects like Ceres and Sedna are planets, for they are the largest known things in their regions of the solar system.

The main problem is that as we discover new objects, some planets may cease to become planets. And what happens if a planet shifts its orbit closer to a bigger planet? Does it stop being a planet until it moves far enough away?

Having read the article, I like his criterion: massive anough for gravity to form it into a spherical object. This doesn't change over time; it's based on physics; and it's very similar to the criterion for whether or not an object is a star (massive enough for fusion to provide the majority of its energy).

You say Brontosaurus, I say Apatosaurus

[TrentL]

The Atlantic Monthly had an article about the Pluto situation years ago. The problem, though, is that "kids love Pluto." Scientists have tried to change names before (such as the dinosaur example). It'll be interesting to see what the public says about Pluto's demotion (if it occurs).

Re:You say Brontosaurus, I say Apatosaurus

[pavon]

Again, kids are very flexible about learning new things. They latched onto that Aptosaurus like nothing. Actually I think they kind of enjoyed being able to correct all the adults that still called it brontosaurus.

If you were to tell them that we have learned that Charon is not really a moon of Pluto, but that they are close to the same size so they revolve around each other like people dancing, they would think that is really cool. If you further went on to tell them that we have found out that there are a whole bunch of icy subplanets like Pluto and Charon but smaller, and maybe one day we will find one that is bigger, and maybe they could be the one to find it, they will get even more excited about astronomy.

Honestly, it is the adults that are stubborn about keeping the status quo, not the kids.

Re:You say Brontosaurus, I say Apatosaurus

[MammaMia]

Exactly. Adults in general need to put things in categories; kids in general categorize by how interesting things are. I think so many kids are fascinated by dinosaurs because there is SOOO much information out there - weird names to learn, incredible variety of sizes, shapes, habitats, behaviors, how fossils were formed, how they are discovered and studied, etc. Same goes for astronomy, if kids are given the opportunity to learn more than just the names of the major planets, they can become fascinated by all the differences between them, the different sizes and colors and surface features and moons and composition... and that's just the planets, never mind all the other interesting stuff out there.

Whatever the scientific community ends up agreeing on in this case, there are some people that will always insist there are nine planets because that's what they were taught as kids and that's that. So what. Those of us who know better will raise a generation with sharper critical thinking skills, who can understand not only the concept of evolution but also that science itself evolves as we continue to integrate newfound knowledge.

I say it isn't a planet, but is a minor planet

[saskboy]

And just what makes me an authority on this? I've taken more Astronomy classes in University than the average bear.

So here is my reasoning from an old assinment of mine:
A) Is Pluto a planet? Many measurable criteria signify that Pluto is a planet, but it is not a major planet. It is too small to be a major planet, so it is a minor planet or a giant comet. The only reason some astronomers still accept Pluto as one of the major planets, is because an American astronomer discovered Pluto in 1930, and they feel that changing its status to "minor" will minimize Pluto's significance in the solar system. Obviously books will need to be changed to reflect its new status, and many feel it would just be simpler to let it continue to be seen as a major planet, despite the facts saying otherwise.
It might make sense to consider placing Pluto into different categories, such as minor planet and comet. "Dual status already exists for some comets and minor planets, which are given formal numbers and names in both kinds of catalogues." [Green] The various categories we have for collections of matter in our solar system are many. The main categories are star, giant gaseous planets, smaller rocky planets orbiting the sun inside the "asteroid belt", satellites orbiting both major and minor planets, trojans, comets, trans-Neptunian objects (TNOs) and Kuiper belt objects. Meteoroids, and bits of dust, gas, and sub-atomic particles round out the other matter in our solar system.
A large asteroid named Ceres was first discovered in 1801, and was first presumed to be a comet. Then it was classified as a planet. That means astronomers, hypothesized that Ceres was a planet, they tested their hypothesis, and upon inspection of the available data years later they concluded that Ceres part of a new family of minor planets that was just being discovered. We now know of other TNOs, and Pluto doesn't look all too different from them, so we could adjust our view to place it as one of those other 100+ objects.
We can teach school children valuable lessons about science and astronomy if we teach them the history of the classification of Pluto, but stop calling it the ninth major planet. Pluto would not be called a major planet if it were discovered today, so it is a bad lesson in science to ignore data in favour of political concerns. People who say Pluto should remain a planet because for 70 years we have called it so, do not know the history of astronomy. They either don't know or don't care that many celestial bodies have been reclassified as new scientific data is gathered. Outdated models are thrown away in favour of newer, and more accurate models. Pluto no longer fits the major planet model that we use for the 8 major planets, so with our new data we should find Pluto a new category.
B)
Pluto was classified as a planet, when the data available to astronomers indicated it was one. Now the technology has allowed us to gather more accurate data about Pluto's characteristics, we should re-evaluate it's current categorization. People have had to re-evaluate "scientific facts" for millennia. Classifying the Earth as the center of the universe made sense several hundred years ago, but now we know more data that shows it cannot be the center.
From what we know about the physical characteristics about Pluto, I say it is a special minor planet. It seems odd to classify it as a kind of a comet, since I've seen no evidence that it leaves a trail of debris, and we don't know if the core is rocky, or ice like.

Dog?

[vwjeff]

"You wouldn't deny a chihauhau a place among dogs because it is too small."

Dog? I always that chihauhaus were large rats.

Let the Astrologers decide.

[Melibeus]

My charts are going to have to all be recalculated if Sedna is a planet. What a PITA if there ends up being 900 planets! How will I ever be able to calculate this week's horoscope before the week is up?

We should have stuck to the original five. Mercury, Mars, Venus, Jupiter and Saturn. Earth doesn't count, since all these revolve around it.

Let's not mess with our destinies. Don't upset the natural systems any more.

Criteria?

[Dasher42]

So what do we settle upon for criteria? Size is actually rather an arbitrary and vague boundary at both ends.

The fact that it orbits the Sun, specifically? The Sun's nothing special, we've found plenty of other stars that have planets. And if the Sun snuffed it tomorrow, would the Earth cease to be a planet? Would Ganymede be a planet if it were let loose for a stroll on its own away from Jupiter?

What about moons? Venus and Mercury don't have them, and those two rocks around Mars don't count.

It can't be geological activity, because Mercury is dormant and Io, a moon, beats everything we've yet seen for volcanic eruptions.

I think that having a discernable stata and a core of different composition than the crust sounds like a good rule of thumb, because then you're not just talking about a lump of rock that happens to be round, like Ceres. Now we just need to see what Pluto, Quaoar, Sedna have got in that department.

Re:I say it isn't a planet, Harvard

[saskboy]

Harvard has a nice page with lots of links an references for people looking to dig deeper into the Minor Planet definition under which asteroids like Ceres and Sedna fall under.

planet, definitely (both Pluto & Sedna)

[Tumbleweed]

Okay, both are spheroids. Both have atmospheres. Both orbit our sun. Both even have satellites of their own. The only reasons one COULD say that they're not are that they're small, and they're way far out there. Both of those 'arguments' are pretty pathetic, IMO.

In short, there are more reasons for them to BE classes as planets than for them NOT to be.

On a related note, 'Sedna' is a really good name for an HMO, but a really _horrible_ name for a planet! *booo* Hell, even 'Planet 10' is a better name than Sedna!

Re:planet, definitely (both Pluto & Sedna)

[Guppy06]

"Both even have satellites of their own."

Ehhh...

To be really picky about Newton's third law, moons don't orbit the planet itself, but instead both tend to revolve around a point between the two centers of mass (ie. the center of mass of the planet-moon system) because of mutual gravitational attraction. For example, the reason we're able to find (disgustingly massive) extrasolar planets is that the planets pull on its parent star enough for the star's motion to be visible from here.

I don't know off the top of my head whether the mass ratio between the earth and the moon is enough to pull the center of mass of the earth-moon system outside of the earth, but I do know the center of mass of Pluto-Charon is well outside of Pluto.

So that might throw a wrench into the works of a "it has a moon so it's a planet" idea.

Inconsistency

[Michael+Woodhams]

He wants a Boolean criterion (yes/no) for planethood, but then criticizes a 'minimum mass' limit as being arbitrary. It is not possible to impose a Boolean criterion onto parameters that vary continuously without there being an arbitrary boundary somewhere.

Other than that, a pretty good discussion. His suggestion will still require an arbitrary boundary (how round is round?) but it is not totally arbitrary.

His rule has a problem that it turns into planets objects that we had previously decided were not planets. It has the advantage of being less arbitrary than the alternatives. Whether the advantage outweighs the disadvantage is a matter of taste.

Approach to understanding the solar system.

[pavon]

I think part of the problem is the fact that memorizing the 9 planets are all most people really know about our solar system, and so they tend to be fairly sentimental about it. I think a much more accurate and interesting approach to teaching kids would be to start of by brainstorming all the different types of objects in space - galaxies, solar systems, stars, moons, astroids, comets, nebulas. Then instead of memorizing just the planets memorize all the different regions of our solar system and what makes them special. Start with the sun, then you get to the inner planets, then astroid belt made mostly of rock, then giant gass planets, then the Kupier Belt full of icy objects and finally the Oort cloud. Then lastly you describe the interesting features of each area, including the planets and what makes them unique.

This journey approach would be far more interesting to the kids and by the time you got to the point of describing pluto and charon, they would have an understanding of how diverse (for lack of non PC word) matter in space is and would be less concerned about sticking a specific catagory on it, and just be excited that it was yet another unique and interesting thing.

It's the difference between decribing the cool terrain, people and features in country as opposed to just memorizing the state capitals. The former is far more interesting, and informative, and kids will eat it up.

Flawed metaphor

[flikx]

You wouldn't deny a chihauhau a place among dogs because it is too small,

chihauhaus are clearly rodents, not dogs. Therefor, Sedna is not a planet, but a rodent.

Re:Requirements? Look to gravity!

[Chris+Burke]

How about the simple argument that planets are gravitationally strong enough to pull themselves into nearly spherical objects, whereas asteroids are not.

I like this definition a lot. While it does leave some wiggle room as to what exactly constitutes "spherical", it is still based on a physical property of the object related to its mass. This makes it better than any arbitrary size/mass requirement (e.g. "Anything as big or bigger than Pluto").

Pluto, BTW, Sedna, and many of the largest moons can all do this.

I'm going to be extremely unhappy with any definition that demotes Pluto. Also, anything that makes Pluto not a planet is going to be close to making Mercury not a planet, and that's just not acceptable. :)

I also think, for the record, that if something as large as Luna, or Titan, or Europa were out floating in space orbiting the sun and not another planet, they would be considered planets too.

Titan is bigger than Mercury, so a Sun-orbiting Titan not being considered a planet is unacceptable. :) But clearly a planet-sized object orbiting another planet is a moon. Again, this definition makes perfect sense.

I'm not an astronomer (but I play one on occasional weekends), but of all the definitions I've heard, "big enough to be spherical and orbiting a star" is the simplest and most logical.

And for the record -- if there was some comet out in the Ort cloud with an incredibly eccentric orbit around the sun that was the size of Titan, that'd be a planet too. IMHO. :)

Re:Enough already

[Keebler71]

so by your reasoning, the baseball on my desk is a planet?

I wrote a cool program in Matlab for a graduate astrodynamics class I took that would plot the planets and their orbits at any time. One thing immediately jumps out at you.... Pluto is not a freakin planet! Any good diagram of the solar system shows to screwed up Pluto is.

For those who hate pictures, here are the orbit elements of the planets in tabular form

First off, note that Pluto has an eccentricity of almost 0.25, that is WAY oblate. Now, someone will probably point out that Mercury is nearly that oblate and we can argue whether Mercury is really a planet also. It probably is, however, it is soooo close to the Sun that it has comparatively zero angular momentum - and remember, that is the job of the planets, to store the bulk of the angular momentum of the solar system as it was formed (you do remember that right?) Anyway, Mercury is so close to the Sun, that its orbit is much more easily perturbed by higher J2 and J3 harmonics of the Sun and you would expect it to have be a little out of plane and eccentric due to multibody effects as well.

Moving on, how about that inclination... 17 degrees. Again, excluding Mercury, the next closest is 3.4 deg and the next closest outer planet is 2.5 deg.

And how bout these data. Check out the rotational period... 153 hrs.. the next closest outer planet is 17 hrs.

Sorry folks, it is a captured Kupiter belt object... move along.

More interesting detail about Sedna

[njchick]

Sedna's orbit is so far from the Sun that it could not have been placed into that orbit by any planet. It could not have formed that far from the Sun and be so large. Some unknown object or star must have lifted Sedna's perihelion.

There may be another Earth-sized planet that was ejected by Neptune and that in turn shifted the orbit of Sedna. Why don't we see that planet? Because it may be in the aphelion, perhaps light week away. Not only it is far away from us, but it's also in the darkness, being far away from the Sun.

Or maybe the Sun approached another star in the past, which changed the orbits of the outermost Kuiper Belt Objects. Finally, maybe it was our Sun that snatched Sedna from another star.

Re:Gravitational Rounding AND Atmosphere

[egomaniac]

I think there needs to be the addition of an atmosphere to be considered a planet. Really it's just a round rock without one. It pretty much classifies moons as planets without that qualifier.

First -- how much atmosphere? Every sizable rock will be able to hold onto at least a few gas molecules.

Second -- the Sun has stripped Mercury of its atmosphere. However, if Mercury were orbiting at the distance of Mars, it would have been able to retain quite a bit more air. Your definition is biased against close planets.

Third -- our atmosphere came largely from outgassing. A planet with a different composition (say, similar to the moon), or less active tectonics, might have dramatically less of an atmosphere.

So, you have now tied the definition of what is a planet to a complicated interplay between its size, composition, geology, distance from the sun, and who-knows-what-else factors.

Can't we just say "You need to be this big to be called a planet" and leave it at that?

Re:Wrong

[hInstance]

What!? As any child can tell you, fruit tastes good, whereas vegetables are ucky. Therefore, the tomato is a vegetable. (Unless it's used in pizza sauce, at which time it is cast as a fruit)

Re:Wrong

[Waffle+Iron]

Yes, and all fruits are: Animal? No. Mineral? No. Vegetable? Yes.

Therefore, tomatoes are vegetables, just like apples, peas, and pine trees.

Useful definition of planet

[mark-t]

First, the object cannot be so massive that self-sustained fusion becomes possible. This excludes stars and any gas giants so massive that they could become stars at some point in their existence.

Second, the object must be round. This criteria excludes most asteroids.

Third, the body must be large enough that its own gravitational forces can account for it shape. This criteria excludes any objects which might happen to be round but can't really be called planets, such as small round rocks or asteroids.

Fourth, there must not be any similarly sized objects in the same orbit unless the gravity of one significantly affects the orbit of the others. This requirement excludes comets and all remaining asteroids.

Fifth, the object cannot be in orbit around another object that otherwise qualifies as a planet. Objects which orbit eachother may qualify as a double planet if all other criteria are met.

Re:Requirements? Look to gravity!

[CrowScape]

The definition that makes Pluto not a planet is not based completely on arbitary size and so would probably not demote Mercury as well. The most prevalent definition of a planet (which was not stated in the article as far as I could tell, at least not completely) is any gravitationaly round object that is more massive than the rest of the mass in a similar orbit COMBINED. Mercury would be safe with this definition, while Pluto would be quickly tossed out. I actually like this better as the term "planetoid" now means something different than either "planet", "asteroid" or "satelite." (it would become a synonym of one of these otherwise) I propose the following definitions:

Planetoid: Any object that becomes round by its own gravity but does not sustain fussion.

Moon: Any planetoid that orbits another planetoid (let's face it, it's a generic term and nothing will ever change that). BTW: This would demote a lot of "moons" to mere satelites.

Planet: Any planetoid that is more massive than the the rest of the matter in its orbit combined.

Ceres is round

[erice]

Ceres is round. Vesta is nearly so. Do they get promoted to planet status?

Is Earth a planet?

[Paranoid]

I bet the folks who live on Jupiter think our solar system only has 4 planets. After all, Earth and Venus aren't so much bigger or different than Pluto or Sedna. Certainly, Earth is closer in size to Pluto than to Jupiter.

People argue so much over where to draw the line between Planet and non-Planet, but everyone seems to take for granted that Earth is a member of the former class.

Bigots.

eh?

[porkchop_d_clown]

This excludes stars and any gas giants so massive that they could become stars at some point in their existence.

Ummmm... given that the only difference between a gas giant and a star is their mass, does this statement make any sense at all? If a planet has "enough mass to become a star at some point" then it will immediately ignite. If it doesn't, it won't.

It's not like planets get a choice in the matter. It's not like Jupiter might get ambitious one day and decide to get lit.

MMM! Useless trivia!

[fm6]

...there are tons of small things out there that we don't call planets precisely because they are smaller: Asteroids!

It's worth considering where some of these words come from. Asteroid, for example, means "star like". Say what? Yep, 19th-century astronmer's considered asteroids to resemble stars, because when you pointed a telescope at them, you just see a point of light, unlike planets. But they weren't exactly like stars, because they moved in relation to the "other" stars. Hence "star like".

Asteroids are also called planetoids, which just flips the above comparison on its head -- they're like planets, but they're not exactly like planets. The really amusing thing about this double terminology is the way it confuses Star Trek writers.

Then there's the word planet, from a Greek word that translates literally as "wanderer". All the objects in the sky that move with respect to the stars were originally considered planets. Not including the asteroids, because you can't see an asteroid without a telescope which hadn't been invented yet. But what about the Sun and Moon? These were considered planets too. But not the Earth, because everybody knew that the Earth didn't move. Hey, motion is define in reference to the Earth, how could the Earth move? What is that Copernicus dude taking, anyway?

Incidentally, that's why there are seven days to the week. Each planet that you can see without a telescope (and thus that is actually considered to exist) is dominated by a deity, and each deity has their own special day: Saturn Day, Sun Day, Moon Day, Mars Day, Mercury Day, Jupiter Day, and Venus Day. Most of the names we use in English come from Norse gods that medieval scholars thought were cognate with familiar Roman gods; their logic was a little stretched, but nobody cared, since the Norse religion was already dead, and hadn't involved planet worship anyway.

But I digress. The important point it that all these names are historical relics -- there's no way to be really precise with them. The cover issues we no longer care about, and don't cover issues we do. If you want to be more precise than anybody is in real life, you refer to rocky body, gaseous bodies, and Kuiper objects. But in real life you use familiar terms, because they're, well, familiar. If there are confusions and ambiguities, you take a moment to clear them up ("for the purposes of this discussion, any large body that orbits the sun is a planet; also Greenland is an island, not a continent"), and then you move on to stuff that really matters.

Re:Requirements? Look to gravity!

[maladroit]

> that the center of gravity for our orbit is well off from the center of the earth.

Cool - another point to debate. What is the transition point from 'planet-moon' to 'bi-planetary' ?

Basing it on the center of gravity seems like a good idea, but 'well off from the center' is a little bit fuzzy. We could pick a number - say, 50% of the larger planet's radius - in which case the Earth-Moon system meets the criterion, since the center point is about 75% of the Earth's radius away from the Earth's center (some references).

But now we've done the same thing the original article was complaining about - we picked an arbitrary value, just, well, because.

It's seems like a physical point would work a bit better - say, the surface of the larger planet. Then the definition becomes a bit easier: if the center of gravity is in space, it is a dual-planet system. Otherwise, it's a planet-moon.

How you categorize a center of gravity within an atmosphere is left as an exercise ...

Totally Wrong

[PingPongBoy]

Tomatoes are planets.