Solar Systems Like Ours Are Likely To Be Rare

KentuckyFC writes "Astronomers have discovered some 250 planetary systems beyond our own, many of them with curious properties. In particular, our theories of planet formation are challenged by 'hot Jupiters,' gas giants that orbit close to their parent stars. Current thinking is that gas giants can only form far away from stars because gas and dust simply gets blown away from the inner regions. Now astronomers have used computer simulations of the way planetary systems form to understand what is going on (abstract). It looks as if gas giants often form a long way from stars and then migrate inwards. That has implications for us: a migrating gas giant sweeps away all in its path, including rocky planets in the habitable zone. And that means that solar systems like ours are likely to be rare."

Rare?

[east+coast]

I didn't RTFA, but I will when I get home.

But on the surface it seems more to me that they're just saying that solar systems have a life cycle that is marked by the location of gas giants. I don't really think that means that our setup is rare.

But if I am misinterpreting the blurb and that is what they're proposing I would still say we need to hold our horses on any real judgement. We've found these solar systems because our current method of seeking these solar systems out is going to be more likely to find this kind of activity as opposed to what we have here at home. I think we're jumping the gun a bit on this one. I say let them work it out for a couple of more decades and even then we should be a bit more cautious about such sweeping statements.

Re:Rare?

[dintech]

I agree. In addition, 250 systems really isn't a lot. I'm just a lay-person but it occurs to me that the easiest ones to examine via red-shift are those with a gas giant close to the sun.

Re:Rare?

[blueg3]

They're not actually determining that solar systems like ours are rare from the observations. The observations were incompatible with our current thinking on solar system formation. Solar system formation was reexamined, and a more-accuracy theory of solar system formation suggests that systems like ours are unlikely.

Re:Rare?

[Devout_IPUite]

A man drove from the Dallas to Phoenix.

Upon arriving in Phoenix he casually remarked to a gas station attendant "It's a sham about everyone leaving Phoenix, it's such a nice place."

Confused, the gas station attendant asked "What do you mean sir? Why would everyone be leaving Phoenix?"

Tthe man confidently replied "On my way to Phoenix I saw way more people heading towards Dallas from Phoenix than going to Phoenix from Dallas! I'd say it must be fifty to one of people leaving Phoenix."

The gas station attendant didn't say anything, but we all knew what he was thinkings... 'Of course you saw more people going the opposite way while you drove you idiot! Your relative speeds much closer and you only see new people when someone passes or turns, you see everyone in the other lane on the other hand'

Re:Rare?

[shma]

The parent is correct that there is a selection bias in our detection methods of planets that favours systems with gas giants close to the sun. However, this has nothing to do with the conclusions of the article. What they are saying is that, initially, the discovery of so many closely orbiting gas giants was confusing given that their models of planet formation show gas giants developing far away from the sun. What they have found through simulations is that gas giants naturally migrate inwards as the solar system evolves. So a 4 billion year old system like ours with gas giants far from the sun in unlikely. This conclusion comes from the simulations of solar system evolution, not from the observational data.

Re:Rare?

[RogerWilco]

No, our old assumption was that people could not grow beyond 1m/3feet even as adults. We then started looking for them, and found lots of adults over this size. The scientists have adjusted their theory so that it can explain the existence of people over 1m/3feet is size.
The side effect of their model is that it also predicts that adult people under 1m are probably quite rare.

wake me up

[ionix5891]

when they have capability of detecting Earth > Venus > Mars size planets

they don't have much data do they to base their theory on?

there's nothing there

[speedtux]

Actual data is highly biased towards gas giants in close orbits because that's what's easy to detect.

Simulations like these don't have sufficient real-world data to make any reasonable statements about what kinds of solar systems are likely.

Also, "rare" is a relative term; if 1% of all planetary systems contain a habitable planet, there would be a lot of them and they'd be rather closely spaced.

Re:Well, that does it...

[ShieldW0lf]

Whatever... this is naval gazing and conjecture, no more credible than Intelligent Design. These guys have a few data points, they create a highly convoluted system that seems to account for their data points, then the moment they get more data, they start over. Again and again.

A good critical thinker should know when to say "We don't have a fucking clue" if they want to be taken seriously. But then, it's all about money, isn't it?

Depends on your Definition of Rare

[AbsoluteXyro]

Best estimates put us at 30 billion planetary systems in the Milky Way galaxy alone. If only 0.0001% of those planetary systems holds an Earth-like planet capable of sustaining life, that's 3 million Earths, just in the Milky Way. Now consider that figure holds for all galaxies. A conservative estimate from Nasa's scientists puts the universe at 125 billion galaxies. That's 3 trillion 750 billion planetary systems. If only 0.0001% of those systems are host to life-sustaining Earth-like worlds, that's 375 billion Earths in the universe. Perhaps that is rare, considering how stupidly big our universe is... but that is still a hell of a lot of Earths.

Re:This appears to be a "When you are a hammer ...

[SengirV]

Yes, our theories were WAY off. No one predicted that these hot Jupiters were out there. Now they make up almost all of the planets we've detected to date. The point I was trying to make is that we can't detect solar systems like ours yet. Unless MAYBE it was in the alpha centaurus system and then MAYBE if it's Jupiter equivalent were to pass in front of one of the stars.

Please, tell me how many exosolar planets we've found with orbital periods greater than 365 days? How about 4000+ days like Jupiter?

Talking about how rare we are, without even another example, because we lack the ability, is just another theory that will fall - kinda like the planet formation theories that lacked the ability to predict "hot Jupiters". Now they have gone to the other extreme and theorized that EVERY solar system starts out with hot Jupiters. You know, because that is all we can presently detect.

How is that irrelevant? It's EXACTLY the "To a hammer, all looks like a nail" analogy I started with. Since that is all we have the ability to find at present, now all solar systems must start out that way?!?!?!?

This is the same mistake all the theorists made to start with, since all we had was our own solar system to base this upon. Now they have gone exactly the opposite way in their theories which is repeating the same mistake they initially made.

Yes, you adapt your theories based upon more and more observational data. But when you KNOW your observational data is limited to one subset of possible outcomes(which makes our own solar system damn near impossible to form) and you claim "victory", that's just very illogical to me.

Re:first post

[TheRaven64]

But Science is about proving things, not suggesting every possible idea and disproving them one by one.

Where on Earth did you get that idea? One of the first things you learn about science is that it doesn't prove anything, only disprove. The scientific method is a three step process:

1. Observe.
2. Hypothesise (and predict).
3. Test.

You observe phenomenon, create a theory that explains it and makes some predictions and then test these predictions. If the observations don't match the predictions you either discard or refine the theory. If they do, then you keep it around until you find some new observations that don't match up with the predictions.

The reason creationism is not science is that it makes no testable predictions. Whether it is true or not can not be tested and so is an irrelevant question to science.

not how science works

Science is about proving things, not suggesting every possible idea and disproving them one by one.

Exactly the opposite is true. Science is never about proving anything. Mill's "black swan" analogy illustrates how we can make reasonable inferences and still be wrong because nature is otherwise. Every swan you've ever seen is white, so you think "all swans are white, and certainly none are black!" Upon discovering that some swans are black, the rule is not so fast. It might be tempting to claim that no swans are plaid, but even this is not provable. Nature could turn out to be different than it appears.

Creation Science can throw out some sticky questions and make some points that are hard to disprove.

They cannot be disproven, even in principle, and this is the last bastion of special creationists; they know nobody can prove so much as "the world wasn't created 5 minutes ago, with all its state and photons in flight and past memories in place", and they prey on people who think this is a failure of science. Doing science is about making wise inferences, and claiming special creation is not wise inference because empirical evidence detracts from (but does not *disprove*!) it.

established scientific ideas are SUPPOSED to be dogma.

No, scientific ideas are supposed to be meritorious.

It isn't politics. Equal time isn't given to competing ideas, that's not the way it works.

What you mean to say is that science isn't democratic. This is a result of its being a meritocracy and not a feel-good daycare where every idea gets a shot no matter how unmeritorious it may be. The following statement is a corollary:

the system would collapse without a hierarchy of opinion.

Quite right. The hierarchy of which you speak arises because not all ideas have equal merit; that is to say, not all ideas are equally scientific.

Other observational evidence

[Angst+Badger]

Hmm. Every time our knowledge of the universe expands, there is always a group of scientists who rush to say that the new evidence indicates that we are, in one way or another, the center of the universe. And when that conclusion is invalidated by still more new evidence, they go hunting for another reason to reinstate their conclusion. The "Rare Earth" faction is just the latest iteration of the same deep-seated emotional bias that gave us geocentrism.

We have exactly one stellar system that we have studied in detail and exactly one example of a living ecosystem, and all our knowledge of other stellar systems comes from techniques that exclusively detect stellar systems with a massive planet in a tight orbit around its star. It seems to me that our sample size is too small to reach any conclusions at all, and until we have better tools for observing other stellar systems in high detail, discussions about what constitutes a "normal" stellar system barely rise above the level of pure speculation.

Re:first post

[irenaeous]

You and colmore are both right. Colmore beautifuly summarized how science actually operates. Your observations reflect understandings gleaned from the philosophy of science, in particular Karl Popper's falsifiability criteria. Popper developed this idea to show how one can delineate science from pseudo-science. It is a valuable philosophical insight and is useful as a criteria of demarcation between science and unscientific ideas. But, it is not a good foundation for understanding the actual methodologies used by science. Actual science proceeds based on some assumptions such as the uniformity of natural causes that cannot be proven, but which underlay belief in the validity of probabilistic induction and the idea that science illuminates "truth" in some sense and gives us greater knowledge of reality.

Re:first post

[ceoyoyo]

As a working scientist: no he (colmore) didn't. Although his intentions were good.

In science you make some assumptions when creating your theory, but if you find evidence that indicates those assumptions are likely false then it's time to make a new theory. That INCLUDES such assumptions as the universe being consistent.

An excellent example of just that idea is quantum mechanics. The universe, it seems, isn't consistent in quite the way that classical physics thought it was: a cause doesn't always produce the same effect. When we discovered this, we designed quantum mechanics to take this aspect into account.

Both you and colmore use the word "prove." Science is not about proving things, and of course you cannot prove assumptions, or anything else, for that matter. In science there is no proof, because there is always the possibility that you will find a counterexample.