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Escape from Proxima b
Scientific American ^ | 4/16/18 | Abraham Loeb

Posted on 04/16/2018 1:36:42 PM PDT by LibWhacker

A civilization in the habitable zone of a dwarf star like Proxima Centauri might find it hard to get into interstellar space with conventional rockets

Almost all space missions launched so far by our civilization have been based on chemical propulsion. The fundamental limitation here is easy to understand: a rocket is pushed forward by ejecting burnt fuel gases backwards through its exhaust. The characteristic composition and temperature of the burnt fuel set the exhaust speed to a typical value of a few kilometers per second. Momentum conservation implies that the terminal speed of the rocket is given by this exhaust speed times the natural logarithm of the ratio between the initial and final mass of the rocket.

To exceed the exhaust speed by some large factor requires an initial fuel mass that exceeds the final payload mass by the exponential of this factor. Since the required fuel mass grows exponentially with terminal speed, it is not practical for chemical rockets to exceed a terminal speed that is more than an order of magnitude larger than the exhaust speed, namely a few tens of kilometers per second. Indeed, this has been the speed limit of all spacecraft launched so far by NASA or other space agencies.

By a fortunate coincidence, the escape speed from the surface of the Earth, 11 kilometers per second, and the escape speed from the location of the Earth around the sun, 42 kilometers per second, are close to the speed limit attainable by chemical propulsion. This miracle allowed our civilization to design missions, such as Voyager 1 and 2 or New Horizons, that could escape from the solar system into interstellar space. But is this fortune shared by other civilizations on habitable planets outside the solar system?

Life “as we know it” requires liquid water, which can exist on planets with a surface temperature and a mass similar to Earth. Surface heating is needed to avoid freezing of water into ice and an Earth-like gravity is needed to retain the planet’s atmosphere, which is also essential, since ice turns directly into gas in the absence of an external atmospheric pressure. Just next door to Mars, which has a tenth of an Earth mass and lost most its atmosphere long ago.

Since the surface temperature of a warm planet is dictated by the flux of stellar irradiation, the distance of the habitable zone around any arbitrary star scales roughly as the square root of the star’s luminosity. For low mass stars, the stellar luminosity scales roughly as the stellar mass to the third power. The escape speed scales as the square root of the stellar mass over the distance from the star.

Taken together, these considerations imply that the escape speed from the habitable zone of a star scales inversely with stellar mass to the power of one quarter. Paradoxically, the gravitational potential well is deeper in the habitable zone around lower mass stars. A civilization born near a dwarf star would need to launch rockets at a higher speed than we do in order to escape the gravitational pull of its star, even though the star is less massive than the Sun.

As it turns out, the lowest mass stars happen to be the most abundant of them all. It is therefore not surprising that the nearest star to the sun, Proxima Centauri, has 12 percent of the mass of the sun. This star also hosts a planet, Proxima b, in its habitable zone at a distance that is 20 times smaller than the Earth-Sun separation. The escape speed from the location of Proxima b to interstellar space is about 65 kilometers per second. Launching a rocket from rest at that location requires the fuel-to-payload weight ratio to be larger than a few billions in order for the rocket to escape the gravitational pull of Proxima Centauri.

In other words, freeing one gram’s worth of technological equipment from the position of Proxima b to interstellar space requires a chemical fuel tank that weighs millions of kilograms, similar to that used for liftoff of the space shuttle. Increasing the final payload weight to a kilogram, the scale of our smallest CubeSat, requires a thousand times more fuel than carried by the space shuttle.

This is bad news for technological civilizations in the habitable zone of dwarf stars.

Their space missions would barely be capable of escaping into interstellar space using chemical propulsion alone. Of course, the extraterrestrials (E.T.s) can take advantage, as we do, of gravitational assists by optimally designing the spacecraft trajectory around their host star and surrounding planets.

In particular, launching a rocket in the direction of motion of the planet would reduce the propulsion boost needed for interstellar escape down to the practical range of 30 kilometers per second. The E.T.s could also employ more advanced propulsion technologies, such as light sails or nuclear engines.

Nevertheless, this global perspective should make us feel fortunate that we live in the habitable zone of a rare star as bright as the sun. Not only that we have liquid water and a comfortable climate to maintain a good quality of life, but that we also inhabit a platform from which we can escape at ease into interstellar space. We should take advantage of this fortune to find real estate on extrasolar planets in anticipation of a future time when life on our own planet will become impossible.

This unfortunate fate will inevitably confront us in less than a billion years, when the sun will heat up enough to boil all water off the face of the Earth. With proper planning we could relocate to a new home by then. Some of the most desirable destinations would be systems of multiple planets around low mass stars, such as the nearby dwarf star TRAPPIST-1 which weighs 9 percent of a solar mass and hosts seven Earth-size planets.

Once we get to the habitable zone of TRAPPIST-1, however, there would be no rush to escape. Such stars burn hydrogen so slowly that they could keep us warm for ten trillion years, about a thousand times longer than the lifetime of the sun.


TOPICS: Astronomy; Astronomy Picture of the Day; Science
KEYWORDS: alphacentauric; apod; astronomy; centauri; escape; holdon; imcomin; proxima; proximacentauri; proximacentaurib; reddwarf; science; speed; xplanets
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Count your lucky stars.
1 posted on 04/16/2018 1:36:42 PM PDT by LibWhacker
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To: LibWhacker
p17
2 posted on 04/16/2018 1:39:49 PM PDT by Snickering Hound
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To: Snickering Hound

Is that William Shatner over-acting again.


3 posted on 04/16/2018 1:47:40 PM PDT by wmileo
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To: SunkenCiv

*ping*


4 posted on 04/16/2018 1:54:28 PM PDT by fieldmarshaldj ("It's Slappin' Time !")
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To: wmileo

That is Shatner playing a deranged Captain Garth at the penal colony, where Garth is using his shape-shifter ability to look like Kirk and flipping out when Spock calls his bluff on asking for a chess move passcode as a way to transport back to the ship.


5 posted on 04/16/2018 1:56:54 PM PDT by fieldmarshaldj ("It's Slappin' Time !")
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To: LibWhacker

Basically saying that chemical fuel is not exactly optimal for deep space travel. For escaping earth’s gravity well it is ideal, since high thrust is required rather than specific impulse. Nuclear propulsion becomes the ideal thing after that, generally having low thrust but high specific impulse. I wish I had saved all those Scientific American magazines I used to buy. There were some interesting articles.


6 posted on 04/16/2018 1:57:10 PM PDT by Telepathic Intruder
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To: Snickering Hound

7 posted on 04/16/2018 1:58:11 PM PDT by z3n
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To: fieldmarshaldj

That’s Lord Garth.


8 posted on 04/16/2018 1:59:49 PM PDT by Telepathic Intruder
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To: LibWhacker
This unfortunate fate will inevitably confront us in less than a billion years, when the sun will heat up enough to boil all water off the face of the Earth. With proper planning we could relocate to a new home by then.

How friggin' profound...

9 posted on 04/16/2018 2:02:56 PM PDT by sargon ("If the President doesn't drain the Swamp, the Swamp will drain the President.")
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To: LibWhacker

Hmmm...The PC crowd has missed an important opportunity, for them, to protest these poor size-disadvantaged stars being referred to with such hurtful language...


10 posted on 04/16/2018 2:03:12 PM PDT by SuperLuminal (Where is another agitator for republicanism like Sam Adams when we need him?)
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To: LibWhacker
”A civilization in the habitable zone of a dwarf star like Proxima Centauri might find it hard to get into interstellar space with conventional rockets”

Good. The last thing we need is a bunch of aliens from the Proxima Centauri system showing up on our doorstep seeking welfare and demanding that we celebrate their culture.

11 posted on 04/16/2018 2:10:34 PM PDT by noiseman (The only thing necessary for the triumph of evil is for good men to do nothing.)
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To: LibWhacker

i especially liked the advice to properly plan our escape from earth within the next billion years. I would suggest no planning of any kind until we are within, say, 5000 years of the need to do so.


12 posted on 04/16/2018 2:13:18 PM PDT by Louis Foxwell (Islam is Satans finest work.)
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To: wmileo

Blooper real.


13 posted on 04/16/2018 2:15:02 PM PDT by BenLurkin (The above is not a statement of fact. It is either satire or opinion. Or both.)
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To: LibWhacker

If we’re around in ANY corporeal capacity in a billion years it’ll be possible to just move the earth further out...


14 posted on 04/16/2018 2:16:59 PM PDT by Axenolith (Government blows, and that which governs least, blows least...)
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To: noiseman

Exactly why we need to get there first and we institute quotas so that Proxima’s can be documented and thus legal aliens. We should only allow Proxima’s that have skillsets that complement those on Earth.


15 posted on 04/16/2018 2:20:41 PM PDT by C210N (Republicans sign check fronts; 'Rats sign check backs.)
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To: Louis Foxwell

Uh-uh. We’re going to need every one of those billion years to haul seven billion of us off to Proxima Centauri b! Can’t do it in 5,000. And what about the poor animals? Proxima b is going to be a pretty bleak place without BBQ’d stuff.


16 posted on 04/16/2018 2:22:12 PM PDT by LibWhacker
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To: Telepathic Intruder

Ah, yes. LORRRRRRRRRRRD Garth !


17 posted on 04/16/2018 2:27:59 PM PDT by fieldmarshaldj ("It's Slappin' Time !")
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To: Snickering Hound
Is that William Shatner over-acting again.

No. It's William Shatner doing exactly what the director told him to do.

18 posted on 04/16/2018 2:41:52 PM PDT by Bloody Sam Roberts (Perhaps we should care less about who we may offend and care more about who we may inspire.)
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To: sargon

In a billion years, if we are still around, I’d say we will have mastered interdimential travel and can go anywhere in the universe in an instant.
We’ll probably be creating stars at that point. So we’ll have a new one in waiting when the old one is ready to retire or we’ll just give it a quick charge to last another 5 billion years.


19 posted on 04/16/2018 2:42:21 PM PDT by CapnJack
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To: noiseman

Yep, it is the “4000-7000 angstrom privilege” issue Earth has been dealing with for 4 billion years or so. Man, those complaints get old after a while!


20 posted on 04/16/2018 3:06:20 PM PDT by Shark24
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