How Gaseous, Neptune-Like Planets Can Become Habitable 65
An anonymous reader writes: Life as we know it requires small, rocky planets. The gas giants of our solar system aren't habitable (to our knowledge), but a research team has discovered that smaller, Neptune-like planets can be transformed into gas-free, potentially habitable worlds with a little help from red dwarf stars. Such planets are usually formed far out in a planetary system, but tidal forces can cause them to migrate inward. When they reach the habitable zone of their host star, they absorb far larger amounts of x-ray and ultraviolet radiation. This can eventually boil off most of the the gas atmosphere, leaving behind the core: a small, rocky world capable of supporting life.
An X-Ray baked hellscape sound perfect (Score:5, Insightful)
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What makes you say they are targeting Mercury-like planets?
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yes but even if it were in a habitable zone, it would still be drenched in xray and UV, so I'm not sure how habitable it would really be...
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Wouldn't it be easier (Score:3)
Wouldn't it be easier to terraform the moons of gas giants
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The is slashdot. Science has no place in speculation!
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The is slashdot. Science has no place in speculation!
Sir, I object to your use of the term "speculation"!
Here, we do "rampant, mostly uninformed speculation*"!
* Of course, that's just a guess on my part...
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Ten km of ice can help with the radiation, so Europa is likely quite capable of supporting life. But Europa is not *habitable* by human standards.
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Titan, a moon of a gas giant named Saturn, is not orbiting in a hellacious radiation belt and if it was warmed up might be habitable.
Even most of Jupiters satellites are far enough away from Jupiter that the radiation would not be hellacious though in our system all the nice sized ones are too close.
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Well, since moons of gas giants tend to be tidally locked, couldn't you just live on the side that faces away from the planet?
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Nobody's talking about terraforming, especially not when it involves moving around a Neptune sized planet.
Re:Wouldn't it be easier (Score:4, Funny)
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next daft question (Score:5, Interesting)
Did Earth once possess a much larger (Neptune-sized or even larger?) atmosphere, maybe sometime way before the Hadean period? I can see the hydrogen/helium literally boiling off by a warming sun, leaving behind the heavier gases. Maybe we're looking at what Earth has now completely in the wrong way, considering that even at 430km the ISS is being slowed by atmospheric drag - common assumption has it that "Space" occurs at what, shy of 100km? This Karman line isn't a solid boundary with Space above and Air below, it's a convenient mark on a piece of paper.
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Fitting: Uranus created by your anus. Or perhaps rename it Ouranus after we fuck our planet up.
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On the contrary, at the current rate of increase of smog production, Earth is going to transform into a gas planet.
smog has been going down in the US for 3 decades. in china it is going up, however.
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Neptune's radius is about 25,000Km. Earth's radius plus the altitude of the ISS is about 6800Km. That's an awful lot of volume to burn-off.
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luckily hydrogen and helium aren't that dense.
Necessary but not sufficient (Score:1)
Or would it boil off just enough of the atmosphere to turn it in to a Venusian hell hole?
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Venus would actually be pretty awesome if we managed to perfect carbon capture technology. Though we still have to deal with the problem of Venus being tidally locked. Yeah, not sure where I was going with this.
To the Atmosphere. Balloons will be our savior on the dark side of Venus. :)
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You also have to remove the SO2, the HCl and the HF.
Honestly, the tidal locking is not a major problem, it just limits the size of the possible habitable range. The atmosphere is the main problem.
Gas giants (Score:2, Funny)
The gas giants of our solar system aren't habitable (to our knowledge)
Pfft! You obviously haven't seen Jupiter Ascending [imdb.com] yet! Then again neither have it, but that's beside the point.
ahhh! (Score:2)
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No, no, no. It's just going to align with us and make it so we can jump and stay aloft for five minutes. I know it's true because I read it online somewhere.
Cloud Cities? (Score:2)
Aren't the atmospheres on gas giants so thick and dense that we could make "Cloud Cities" that float on top of the thickest/densest parts of the atmosphere?
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Theoretically this is possible on the outer three gas giants. As Jupiter goes, it's gravity is far too strong, plus it has the most intense radiation. So you would want to set up shop on one of the three outer gas giants. Gravity on the outer gas giants is close to Earth's, about 1 g for all three of them. There are actually layers of their atmospheres with Earth-like temperatures, but they are low in the atmosphere where the pressure is extremely high (we're talking about enough to liquidity hydrogen)
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Star Wars nerd here: The Star Wars Universe is so filled with habitable planets that many which would have required much smaller terraforming efforts were left alone without so much as a closer look. One of the foremost examples would be Dagobah. But I digress :)
Re:'Death' Star was just a terraforming laser (Score:4, Interesting)
Another Star Wars reader: it actually explains this in one of the books by Stackpole - The Emperor created the so-called "death stars" for rapid mineral extraction from planet sized objects. It was only meant for peaceful uses, until Rebel Terrorists took the first one and blew up Alderaan; the Emperor then had that one destroyed. The second one was almost taken over by the Rebel Terrorists and the Emperor ordered it destroyed, at the cost of his own life.
It must be true, it was in a museum on Coruscant.
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What is that all about? From what I've read the earth's moon is currently moving away from the earth, not closer. So wouldn't the same forces affect the migration of planets once their environs are cleared of dust, gas and planetismals?
The tidal forces bend and stretch the planet. This results in friction and ultimately, heat.
As soon as you hear the word "heat", you should immediately start looking for places to drain the energy from. In this case, it is orbital velocity that is shed, which brings the planet in closer to the star.
Re: Planetary migration due to tidal forces? (Score:2)
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The fine article suggests that it does in fact affect orbit. Truth be told, it is the first time that I hear this, and _perhaps_ it is the case for gaseous worlds, for which slowing down the rotation is not as straightforward as for rocky worlds.
I've asked on space.SE, your input and comments are welcome on that discussion:
http://space.stackexchange.com... [stackexchange.com]
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Star Wars nerd here: Cloud City wasn't really floating all by itself, it used city-wide repulsors to do so. Around 36K of them IIRC.
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Terrraforming (Score:1, Funny)
Apparently the secret to creating a habitable world is to remove the cloud of gas that surrounds Uranus?
Can we test on Jupiter? (Score:4, Funny)
"This can eventually boil off most of the the gas atmosphere, leaving behind the core: a small, rocky world capable of supporting life.'
So after nano tech fiber makes space elevators possible, we can then work on a planet towing device to drag Jupiter in to the sweet spot where it will boil away and leave us Jupiter-2, Rocky Core Edition? Oh wait, first we need to drag a Red Dwarf star into our solar system. Damnable prerequisites.
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" first we need to drag a Red Dwarf star into our solar system."
We already have a few Red Dwarf stars here, like Craig Charles and Chris Barrie
Velikovsky (almost) strikes again! (Score:2)
How convenient (Score:2)
Notice how the article used Neptune instead of Uranus as an example.
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The general concept is one thing, doing the math and science to show it's naturally feasible is another.
Boil a gas? (Score:2)
How do you boil off something already a gas? Sounds like we need a term for "heating a gas to the point molecules exceed escape velocity"...
magnetic Field? (Score:2)
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Neptune has a pretty powerful magnetic field though it is a bit weird as it is off centre rather then going through the core.
Why would you need an external energy source? (Score:2)
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According to wikipedia:
Composition
80 ± 3.2% hydrogen (H2)
19 ± 3.2% helium (He)
1.5 ± 0.5% methane (CH4)
~0.019% hydrogen deuteride (HD)
~0.00015% ethane (C2H6)
Ices:
ammonia (NH3)
water (H2O)
ammonium hydrosulfide (NH4SH)
methane ice (?) (CH4â5.75H2O)
So yes, there is a lot of hydrogen. However, to burn hydrogen you need oxygen. Where are you going to get that amount of oxygen?
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For chemical combustion, maybe. I was talking about nuclear fusion. Any civilization capable of interplanetary or even interstellar travel has probably already developed the technology to harness artificial nuclear fusion as an energy source.
So, terraforming a Neptune-like world would merely be a matter of building enough reactors and waiting long enough.
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Sorry, I misread fusion as fossil.
What about life NOT as we know it? (Score:2)
Is there some kind of reason we want to find things just like us?
Isn't that kind of boring?
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Is there some kind of reason we want to find things just like us? Isn't that kind of boring?
We don't just want to find things that are like us.
It's just that's it easier to look for, as we have a good idea what to look for.