Assessing Asteroid Threat 202
Makarand writes "According to a proposal submitted to
the European Space Agency a fleet of
five mini-probes
should be sent each targeting an asteroid
considered potentially dangerous.
The mission objective will be to learn more about dangerous near earth objects so that we can plan how best to respond when under threat.
Once in space, the probes would use ion propulsion engines that provide thrust by shooting out a stream of electrically
charged particles. Power for the ion engines would be provided by ultra-lightweight solar arrays.
Each probe will carry instrumentation to learn about the physical and chemical make-up of the target. The mission would cost around $150 mil
which is quite low according to space mission standards."
Anyone else run into this problem? (Score:4, Funny)
Re:Anyone else run into this problem? (Score:3, Insightful)
If there was only a way technology could be used to solve big picture problems. Too often it solves the immediate needs at the expense of long term planning.
Re:Anyone else run into this problem? (Score:3, Insightful)
I think this is due more to human short-sightedness and greed than a problem with the technology itself.
Re:Anyone else run into this problem? (Score:2)
Very true. Case in point: Saddam and Islamic terrorists before 9-11.
Re:Anyone else run into this problem? (Score:3, Funny)
But as moderator I would not know if I would moderate it TROLL or FUNNY. Allas, yesterday one said: there are no stupid questions, only stupid people. I would say: stupid answers
So: no, pushing an asteroid into the sun gives no fuel at all.
Asteroids are mode from rock, or coal or metals like iron and nicle. Some are made from iridium and gold and platin etc. Of course mixtures are happening as well.
The sun is burning H2 (hydrogen)to He (helium), and in later stages (in some billion years) also He to C or N (not sure, need to look up
At some point fusion, the merging of two low weight nucli, yields no more energy. (Uranium gives energy by splitting/fission, H gives energy by merging/fusion)
Most material in asteroids are to heavy to support a fusion process or are to heavy to even yield energy in a fusion process.
So moving asteroids into the sun only gives a nice firework on the surfae(if at all).
angel'o'sphere
Armageddon (Score:2, Funny)
Re:Armageddon (Score:1)
Awesome link (Score:2, Informative)
hey! (Score:5, Funny)
Re:hey! (the latest) (Score:2)
--sex [slashdot.org]
Re:hey! (Score:2)
to funny
optimistic fools! (Score:5, Funny)
Re:optimistic fools! (Score:3, Funny)
Re:optimistic fools! (Score:2)
Well, it is conceivable that al-Queda would resist attempts to deal with a dangerous meteorite heading towards Earth on the grounds that Allah sent it, or something.
Re:optimistic fools! (Score:2)
Actually, since there isn't a 1:1 mapping between Arabic and ASCII, any phonetically similar spelling is as valid as another. I spell it with a "u" because that's how we write in English, and I've no intention of giving the terrorists anything on their terms.
Arabic and English (Score:2)
Good point.
Also worth noting is that "al" is the Arabic equivalent to the English word "the". So a sentence that includes the phrase "the al Queda cells" is redundant.
Algorithm, altitude, alcohol are words English has borrowed from Arabic.
Solution looking for a problem (Score:4, Funny)
Here's how you really get rid of an asteroid:
Insert used ICBM into Space Shuttle (or equivalent)
Place ICBM and suitable launch device into LOE.
Aim ICBM at the place where the asteroid will be when it gets there.
Press the button that we've wanted to push for so long. Sell tickets, I'm sure the Russians would want to attend - maybe a joint "button pushing" ceremony? Heck, bring the Chinese and N.Koreans in too.
Watch as ICBM blows up asteroid.
Profit!
(Part where it ushers in a new sense of global peace and brotherhood is optional)
Re:Solution looking for a problem (Score:5, Insightful)
You on the other hand have been watching to many american films... It is practicly impossible to do anything with an ICBM (or a whole bunch of them) against an asteroid.
A new sense of global panic and anarchy is much more likely.....
Jeroen
Re:Solution looking for a problem (Score:2)
Use a series of them to nudge it out of the way, ala Project Orion.
Re:Solution looking for a problem (Score:5, Interesting)
ICBM doesn't necessarily mean "nuke".
FYI - Mercury's Redstone, Gemini's Titan, etc. were formerly Ballistic Missiles - adapted for use in manned spaceflight - FYI.2; Titans are still one of the premier spacelauch vehicles in use today, and many are actual decomissioned ICBMs. (they're pretty useless as ICBMs compared to Minuteman or Peacekeeper, because Titans are liquid fueled) - but even so, I think a Peacekeeper would make an excellent asteroid-shover in a pinch, but I'm not sure exactly how much of the third stage would be left for asteroid-shoving if one just removed the warheads and fitted it with guidance/maneuver equipment. Maybe with some strap-ons?
Now, we all KNOW that an ION engine would be better for this application, because you get your energy from solar radiation (or nuclear power), instead of burning your propellant and oxidizer, plus, you get to apply thrust over a much longer period of time, with much finer control. But on the other hand, we've had exactly ONE successful use of ION engines. It's a worthy wheel to reinvent, but that doesn't mean we shouldn't get something rolling more quickly than development of an ION-based asteroid-shover would take. Then do ION-based technology later. In any case, we definately have adequate technology to get such a device positioned. Much of it sitting unused, waiting around for armageddon. If an asteroid strikes our world and ends all life because we were saving our launch capability (idle ICBMs) for a massive nuclear strike, we'll even be jilted of that.
Re:Solution looking for a problem (Score:2)
Re:Solution looking for a problem (Score:2)
Not only would an ICBM be tough to use, but a *USED* one would be even tougher.
Re:Solution looking for a problem (Score:1)
Watch as ICBM blows up asteroid.
Watch as world get bombarded by all the astroid's debris.
Watch as instead of one continent/city (depending on size) gets destroyed, all world is obliterated.
Re:Solution looking for a problem (Score:2)
Re:Solution looking for a problem (Score:2)
Re:Solution looking for a problem (Score:2)
Re:Solution looking for a problem (Score:3, Interesting)
An ICBM not even has the targeting capability to hit the asteroid.
Neither does the war head has the precise enough timers to trigger in time(in case you like to ignition the war head on impact).
Such an asteroid approaches the ICBM with a speed of about 10,000m/s. This is about 6 to 7 miles per second.
If you trigger the war head on passing by, nothing happends at all, besides a heated surface, or probably a melted surface.
Ok, so lets suppose you can approach the asteroid with a lander and plant the war head on the ground.
Unfortuinatly that still wont work
Or you can dig some holes into the asteroid and plant the war heads inside. Exploding them, might break up the asteroid into parts.
I for my part don't think that it is a big difference if one single piece hits north america(or europe, which is my side of the earth) or if 100s of parts are spread all over the northern hemisphere.
Well, obviously its no difference also if one of those scenarios happens on the southern side
angel'o'sphere
Re:Solution looking for a problem (Score:2)
Don't smaller pieces have bigger chance of burning away in the atmosphere?
Re:Solution looking for a problem (Score:2)
However, due to the advancements in nuclear technology since the last great Hydrogen bomb was built in the 1960s (You know that 60 Megaton one that the soviets made), I'm sure we could slap together a device that could kick out in excess of 800-1000 megatons by now, hence just enough to do what you are suggesting.
Re:Solution looking for a problem (Score:2)
Slap together?
The US has not been seeking ways to build bigger and bigger nukes, in spite of what some think here. Once we discovered we already had enough to make the planet uninhabitable (70s) then bigger was irrelevent.
Because of the physics involved, its gets exponentially difficult to design bigger and bigger. Also, no way to test it on the planet. And no chance to make a 2nd one if the first one is a dud. Oh, and you are talking about a shitload of material to make that sucker. Even if you took all the material out of all the existing bombs to work with.
Oh, one last point: Do you want them to build or launch that sucker in your hometown? I could see all kinds of no bath taking fuckers protesting all day and all night (after all, they don't have jobs to go to). I'm sure Nancy Pelosi would have a hayday attempting to get congress to block construction before an environmental impact study was done.
(no pun on impact intended)
Re:Minor correction (Score:2)
I reckon (Score:1)
Spongy Asteroids (Score:5, Insightful)
Here in the UK there was a TV documentary (probably BBC2 Horizon, not sure) about asteroid impacts, how to deal with them and so on. I for one thought it was much like Arthur C Clarke's Hammer of God - find it early, deliver an impulse, deflect it a teeny weeny bit, and it misses by a few miles. Nope. The asteroid could be very porous, it just absorbs the blast, or requires an impossibly big bang to be sure it deflects. So sending probes to gather facts about asteroid composition is a good and useful practical thing over and above the scientific justification.
Re:Spongy Asteroids (Score:2)
Um sorry, but momentum is momentum. In space, the volume of the object doesn't really matter when you're trying to impart an impulse (as there's no air friction to worry about), it's just the mass. In that case, being porus would only help because it would mean that the mass is less than estimated. Any "absorption" wouldn't matter...
Still a not a bad post.
Re:No, it's a waste of money... (Score:2)
So what if we find out exactly what the asteroids are made of that we send the probes to. Chance would have it that the one that hits us will be made of solid iron. If you are going to spend any money at all, spend it on preparations for the worst case. Anything else is just a waste.
How do you know what THE asteroid is made of? If it's made of spongy stuff, your "worst case" city buster nuke (or whatever) won't deflect it. There might not be enough time to get your big bomb up there, because spongy asteroids absorb radiation and are hard to spot in the first place. I think the recommended approach is to build a huge solar mirror and melt the thing on one side, outgassing then acts as a rocket motor and it deflects itself.
It surprised me that there are spongy asteroids. Just because they're spongy doesn't mean they can't be "dinosaur killers". Saying they don't exist and can't hurt, and introducing rhetoric about Bush isn't science, it isn't even good risk management, and it's no good me saying I told you so when the spongy one hits either. We should gather hard facts, spread our bets and plan accordingly.
Space Potato (Score:1)
That's no asteroid. It's a giant Space Potato [soupyet.com]!
Nice, but kind of pointless? (Score:1)
I doubt that there will be anything significant that we will be able to do except predict the end of the world, and you bet that I'll be quitting my job then! :)
Re:Nice, but kind of pointless? (Score:2, Insightful)
Re:Nice, but kind of pointless? (Score:2)
There are plenty of ways to alter the course of an asteroid.
E.g. if there are gases, or frozen liquids on such a thing you could try to use a steam rocket.
Solar power heats the stuff up and uses the gases like in a rocket engine.
You could try to alter the albedo/colour by painting the surface. There was a
Far more interesting is the attempt to put solar sails on it, to drag it away, however such a asteroid will be rotating somehow. Rotation would be needed to stop, or a way needs to be found to tackle a rotating asteroid.
Lasers could be used, not like in Star Wars but as constant pressure, instead of solar sails, to push it away(of course we would need a laser on the moon for that or in space).
I could imagine there are hundrets of concepts thinkable but ony a few will suit a specific asteroid.
Also: not only asteroids are a problem, comets as well. But those are more rare and more easy to spot
So a giant net, wrapped around the asteroid might be usefull
How to manufactor them, probably with resources on the body itself
Pleanty of questions. Plenty of reason to go and look.
angel'o'sphere
The size of Texas? (Score:2)
Just for the record, Texas is 266,807 sq miles [kidport.com]. Does it make sense to compare a two dimensional item like a state to a three dimensional object like an asteroid? How? Compare the surface area of the asteroid to Texas? 4 pi r^2 is the formula for the area of a sphere.
Maybe one should use the largest cross section? This site says Vesta [solarviews.com], the third largest asteroid, is the size of the state of Arizona. This site [enchantedlearning.com] and this site [solarviews.com] list some of the larger asteroids.
Let me suggest that the chance of Ceres sneaking up on us is not one in a billion, or one in a trillion. Let me suggest it is zero.
Are there any asteroids the size of US states that haven't been discovered yet? None with Earth crossing orbits.
Are Kuiper Belt Objects asteroids? If so Ceres is no longer the largest asteroid. [planetary.org]. But it is even more unlikely that something would divert a Ceres size KBO from past the orbit of Pluto to Earth orbit.
How long would it take to divert an asteroid from an Earth impact? Decades? Centuries? Millenia? Anyhow, Deep Impact had the incoming object be a comet. Even with a project to find deadly NEOs, we could still be snuck up on by a long period or extra-solar comet.
We need to institute an advisory system (Score:1, Funny)
I don't get it. (Score:1)
----rhad
Composition matters (Score:3, Insightful)
In other news ... (Score:3, Funny)
Seriously, does anyone else think this is a waste of resources? Give that $150 million to Highlift [slashdot.org] for Pete's sake...
I look at this as a Marketing Opportunity. (Score:2)
cold war leftover (Score:3, Insightful)
Shortly after the 'end?' of the cold war.
All that got swept under the carpet when the axis of evil decended upon the earth(though the dirty bomb's popped it's head up again).
Re:cold war leftover (Score:2)
Seriously, when did you first hear about dirty bombs and Asteroids that would kill us all?
Shortly after the 'end?' of the cold war.
All that got swept under the carpet when the axis of evil decended upon the earth(though the dirty bomb's popped it's head up again).
Well,
I'm 36
I know it snce I can think back, so probably since the age of 10.
No idea how long you know it, probably you are just to young? Or to ignorant? I mean: you still try to say, you do not know it, even more: you think its an invention, right?
angel'o'sphere
Re:cold war leftover (Score:2)
there are more asteroids out there than humans on earth.
Only *one* is needed to kill us all. I don't know what *proof* you are looking for. I learned enough in school to not need any further, so called, proof.
I do not need a cold war conspiracy or whatever to know, no not to belive, but to know, that there is an accident waiting to happen.
Of course, you are perfectly right, its realy unlikely that it will hit us tomorrow. And in case of realy bad luck, in case it would hit us tomorrow, we are not prepared to attempt counter measures.
But
angel'o'sphere
Re:cold war leftover (Score:2)
A gamble for 10 billion... (Score:4, Interesting)
It takes place in the near future when the Earth population is 10 billion. An asteroid threatens Earth, but so big nothing can be done just one thing. By calculating the trajectory of the asteriod the engineers notice that it nearly collide another, but smaller asteroid.
So, they send up a spaceship with full of explosives and ram it into the small asteroid in order to give it a push which is sufficient to make it collide with the big one.
Billiard on the cosmic scale. And it was written well before the public became aware of the asteriod threat.
Different types of object? (Score:5, Funny)
Each Simone spacecraft will have instruments designed to examine the physical and chemical make-up of its target asteroid. It is hoped the missions will help scientists predict the risk posed by asteroids and develop effective strategies for dealing with different types of object.
What properties, other than mass and trajectory, are of interest? It's not like they're going to find harmless ones made out of rubber or whatever.
Re:Different types of object? (Score:3)
Knowing whether these asteroids are ice, rock, hollow, loose clumps of small pieces held together by gravity, all of this is important.
Not all of physics can be modeled by assuming everything is a sphere with mass and velocity.
What properties? (Score:3, Insightful)
If it's strong enough, perhaps like a nickel-iron object, perhaps the best way to deflect it is with explosives.
If it's weak enough, perhaps explosives could blast it to smithereens, all small enough to burn up in the atmosphere. This would also indicate that it's time to get together and work up an exception to the "no nukes in space" treaty.
If it's somewhere in between, then it's time to ship some sort of rocket engine up there to move it. In that case we have to question just how much thrust it can structurally take before it breaks into pieces, leaving our engine shooting off into nowhere.
Re:What properties? (Score:2)
IANA physicist, but it seems to me that the parent contribution here, like many contributions in this thread, seriously underestimates the magnitude of the forces we are talking about.
Would the fragments of a demolished asteroid burning up in the atmosphere be significantly less disruptive than having the intact asteroid smash into the Earth? What were the global effects of the dinosaur killer?
It threw up huge amounts of dust? If fragments of the asteroid "burn up in the Earth's atmosphere" will that produce a worse dust problem or a better dust problem than if one big asteroid strikes the surface?
Heat radiation ignited continent wide firestorms? Would a rain of billions of tons of meteors burning up in the atmosphere ignite a firestorm? The Tunguska object ( if it existed [zetatalk.com]) was something like 50 to 80 meters in diameter. If I have done my math right, it would have massed something like half a million to a couple of million tons. The dinosaur killer was supposed to be something like 10 to 20 km in diameter, I believe. That would be 10 to 100 trillion tons.
Kinetic energy is, IIRC, one half mass x velocity squared. Earth's escape velocity is 11 kilometres per second. Suppose that was Tunguska's initial velocity? IANA Physicist, but wouldn't a one kilogram meteor, at 11,000 meters per second, surrender 60,500,000,000,000 Joules? 1.5*10^12 calories? It takes something like 660,000,000 calories to boil a cubic metre of water. And so your one kilogram meteor could boil 23,000 cubic metres of water. If I have done my arithmetic right, Tunguska could have boiled something like several tens of thousands of cubic metres of water. And, the dinosaur killer could have boiled at least 10^17 cubic metres of water. The Earth's atmosphere currently contains 1,290 cubic kilometres of water [nasa.gov]. A dinosaur killer, that burned up, and surrendered all its energy in the atmosphere, would release enough heat to raise the amount of water vapour in the atmosphere one thousand fold.
Maybe the Earth would be better off if the next dinosaur killer stayed in one piece, and spent some of its energy busting rock?
Abrogating the "nukes in space" treaties? (Score:2)
There are several treaties that would proscribe a single nation from militarizing space with nuclear weapons. One is the 1972 Anti-ballistic missile treaty. George W. Bush has already announced that the USA will no longer abide by this treaty.
But I don't believe any one of those treaties would proscribe a truly international effort.
How to divert a fragile asteroid? (Score:2)
Woops. Consider that the Saturn V could deliver just 49 tons to the Moon's orbit.
The Tunguska object, would have massed more than 500,000 tons -- maybe 5,000,000 tons. The asteroid Apollo, 1.6km in diameter, masses 20 billion tons -- 20,000,000,000 tons [enchantedlearning.com]. How much power do we need to divert it?
The bottom stage of the Saturn V generates something like 160,000 horsepower, for something like 160 seconds. That is, if my arithmetic is right, something like 10^12 joules. Of course we couldn't get an intact Saturn V delivered to an approaching asteroid -- not with chemical rockets. The Saturn V could only deposit 50 tons to the Moon's orbit. But suppose we could? If the asteroid Apollo was going to impact right in the centre of Earth how far in advance would we have to light the candle of this theoretical Saturn V to divert the asteroid enough to miss us?
Kinetic energy == mass * velocity squared / 2
10^12 joules transmitted to 2*10^13 kilograms? If my Physics is not too rusty, will impart a velocity of one twentieth of a meter per second. Five centimetres a second? That is 0.18 km / hour.
At that rate you would have to light the candle on that theoretical Saturn V at least four years before impact to prevent the collision.
To be really safe, because tidal forces would rip the asteroid apart prior to impact. Tidal forces ripped Shoemaker-Levy 9 into fragments. So you would be better served lighting the candle decades in advance.
Now, consider how big a payload could we deliver to a comet or asteroid years or decades in advance? Miniscule.
So, what about using atomic charges? Asteroids might be as fragile as piles of rubble. A single charge might shatter the asteroid, leaving an uncontrollable cloud, still aimed at us like buckshot from a giant shotgun.
Would it matter if the asteroid shattered, if we didn't use one charge, but rather dozens, or hundreds, designed to explode more or less simultaneously? In the sixties there was lipservice paid to using atomic charges for peaceful demolition work here on Earth. The best known plan was to blast a 2nd, sea-level, Panama canal. One of the odd things you learned if you read about this was that if the charges all exploded at once you would get a trench with remarkably straight, even walls.
Or, consider how a shaped charge anti-tank warhead works. The charge is turned into a kind of lense of explosive. The business end has a conical hole carved in it. That cone is coated by a thin layer of copper. When the warhead explodes, the explosion travels through the explosive. When it gets to the apex of the conical hole it begins to focus the metal into a jet. I came across some really cool slow motion pictures of this process -- can't find them now though.
So, what if we landed a network of charges over one hemisphere of the asteroid, and had them go off in a rapid sequence? Could the expanding concussions redirect rubble away from the Earth, leaving a small amount of very rapidly moving small particles going east, and the rest of the asteroid going west, with essentially none coming right at us? If the asteroid shatters, would the overlapping concussions focus the bulk of the rubble in a single direction? Would charges spread all over the surface of one hemisphere help preserve the structural integrity of asteroid in a way a single charge wouldn't?
Re:Different types of object? (Score:2, Insightful)
How about "How easy it is to push into a different orbit that misses the Earth?" I don't know about you, but that's a property that I'm very interested in, and it'd be silly to think that all asteroids are the same...
Re:Different types of object? (Score:2)
An asteroid made of a nice brittle material could be shattered - a softer or more porous material would have to be deflected. One that's mostly water could be dealt with slowly by focussing sunlight onto it over a period of years, so evaporation alters its trajectory. One that's mostly basalt or iron would require a different strategy.
Simon says (Score:5, Funny)
Pretty smart using Simon to stop the asteroid... "Simon says jump on one foot. Simon says don't hit the Earth..."
Next on /. how to save Earth from an Alien attack using the Hockey-Pockey
Re:Simon says (Score:2)
Re:Simon says (Score:2)
so what they're telling us (Score:1, Funny)
The biggest threat by far is ... (Score:1, Insightful)
Why do we worry about these thing when the population of this planet can't even figure out how to deal with the threats on this planet that we have control over?
Re:The biggest threat by far is ... (Score:2)
Ion propulsion (Score:1)
what characteristics? (Score:4, Interesting)
Now, one might argue that if we knew things like chemical make up or density or the like we might know how to destroy the object or perhaps could change it's trajectory with engines or a tractor beam or something. However, this implies that we know the object exists with enough advance notice to do something. To plan a research encounter, that might be a year. To plan a destructive encounter, I think that might be a month. I seem to remember that the in the last near miss, we did not detect the object until after it had passed.
Which is to say that we need better detection technology coupled with serious research of how to change trajectory. I do not believe converting a single projectile into hundred of projectiles is a reasonable solution. And of course, if we don't know the object is coming, there is nothing we can do
then what? (Score:1, Redundant)
A more down to earth kind of approach. (Score:2, Funny)
People jumping won't help (Score:2)
Re:People jumping won't help (Score:2)
Trouble is, they come back down again, negating the effect.
I still think the jumping option is promising. If the whole population of china jumps up onto chairs, waits for the asteroid to slip by the planet, and then jumps down again, then we are set.
Real threats? (Score:2)
We spent more money... (Score:3, Insightful)
$150 million to explore the REAL dangers of space is cheap at twice the price.
What's the point really? (Score:2, Interesting)
Yes, there is a chance an asteroid will hit us. There's also a chance black hole will spring up next to us and suck us in. There's even a tiny chance that the sun will extinguish itself leaving us with the task of trying to reignite it.
Why waste money on such research which will, inevitably, be pretty useless when (and if) an asteroid the size of Britain comes along our way.
I think these guys have finally got around to renting Armaggedon and got a little paranoid.
Re:What's the point really? (Score:2)
You're right, there's not a damn thing we could do about an asteroid the size of Britain; that would be a planet-killer, and we couldn't stop it. Something along the lines of the dinosaur-killer, though? (Estimated at a few kilometers in diameter, IIRC.) That we might be able to do something about
You're putting the cart before the horse in mentioning Armageddon. The reason that movie was made is that someone in Hollywood finally noticed what scientists and SF authors have been talking about for years. If you honestly think that scientists got their ideas on asteroid impacts from Hollywood, you haven't been paying attention.
Re:What's the point really? (Score:2)
No, I think you (and whoever up-modded you) fill entirely too much of your brain with bad sci-fi.
The chance of a black hole suddenly popping up and sucking in the earth is around 10^-100. The chance of the sun extinguishing or exploding sooner than 2 billion years from now is comparable. This is based on both theoretical calculation (simple astrophysics) and physical observation (never seen).
On the other hand, the odds of a killer asteroid impact within our lifetime is is 10^-6 or higher. We have seen impacts firsthand [stsci.edu] (note that the blast shown here [stsci.edu] is the same size as Earth), and we know the likely results [google.com].
Last, between chemical rocketry, ion engines, and good old H-bombs, we have technology to do something about a future impact, given sufficient lead time. Summary: don't be a dork, russx2.We should go to the asteroids (Score:2)
I hope to see that happen in my lifetime - even if permanent.com is too optimistic. That's why I like these probes, not because of the (negligible) impact danger.
Hmmmm.... (Score:2)
Hmmmm....so, a pair of flat, lightweight solar arrays. I betcha you'd have to mount the ion engines in parallel, to keep the thing from spinning uncontrollably. And a center sensor/instrumentation package...
Why does this sound familiar? [rpgplanet.com]
A lot of negativism (Score:5, Interesting)
Considering the amount of money spent on practising for war every year - "defense", the proposal to the EU is peanuts. It is a proposal to start investigating the possibilities of a very real threat. I seem to recall the Siberian meteor impact as estimated as equivalent to about a 30MT H-bomb, and we were very lucky it hit where it did. It also seems that satellite photography is identifying more and more impact sites on the Earth. When I was a kid very few of these were recognised, and it seems reasonable to me that if we are learning that the frequency of such hits is much higher than expected, we should start to do something.
It's also worth remembering that the big impact on Jupiter occurred only a few years ago, and that very visible impact may well have concentrated people's minds. As telescopes get better, astronomers are realising there is far more debris out there than anybody knew- the old idea of 9 tidy planets and an asteroid belt has turned into a solar system full of all kinds of junk, moonlets, comet formation belts- the Solar System seems to be more like Mexico City than Singapore, if you see what I mean.
A billion dollars sound like a lot, but how much is the ABM system going to cost?
Dealing with a hard rock or a dirty snowball could need very different approaches (gentle push versus big bang?). Just because a multi-mile wide asteroid could be undeflectable and fatal, doesn;t mean that the real threat might come from a thing 100M across - obviously deflectable with the right technology, but nuking it could result in thousands of destructive small impacts.
To sum up this ramble:
- Destructive meteor impacts do occur on Earth
- Some of them are potentially preventable
- The cost of research is probably going to be far less than the US is going to spend developing nuclear warheads this year
- The cost of stopping a small asteroid could be a lot less than the estimated budget for stopping Saddam Hussein
- All in all, it looks far from a waste of EU money.
Thank you for reading this far.Re:A lot of negativism (Score:2)
Think about it, the dinosaurs had how many million years to develop ways to prevent a fatal disaster? And they didn't have the intelligence too. Intelligent humans have only been around 4/5000 years, and we've already come *incredibly* far. All we need is another 5000, and I predict we'll have moved off Earth and colonized hundreds of other plantets, as well as building permenant space stations, providing there is no fatal disaster. It would be a rather tragic end to humankind if, after only a very small period of time in evolutionary terms, we were wiped out. We should at least be given another million years
What if the meteor strike is just the opening act? (Score:2, Interesting)
Wouldn't it be ironic if we helped an incoming asteroid finish us off, rather than hindering it?
Ion Engines Not New (Score:3, Interesting)
Re:Ion Engines Not New (Score:2)
Not that new (Score:2)
See this [esa.int] link for a little information on them all, and some background gumf.
How many ways...? (Score:2)
I have a theory about asteroids (Score:2)
$150 for five probes? (Score:2)
I don't see how it could work (Score:2)
Probably the best solution is nuclear thrust (Score:2)
BTM
We should take this oportunity (Score:2)
Re:Question: Why should we care? (Score:2)
This years scientific focus is eliminating bad jokes on late night TV.
Re:Question: Why should we care? (Score:3, Insightful)
We really shouldn't worry about things like this until we have to.
By the time we have to worry about it, we are all already dead. Not just those of us with cancer or AIDS. That's like saying you shouldn't worry about a computer virus until you get one. You shouldn't worry about security until your server is rooted. You shouldn't worry about your car until the engine seizes up.
Re:Question: Why should we care? (Score:1, Troll)
We have proof that asteroids have hit the Earth in the past, but no solid proof that it can, or will, happen again. Until we can find that proof, let's stop wasting time on projects like this.
Re:Question: Why should we care? (Score:2)
We have proof that asteroids have hit the Earth in the past, but no solid proof that it can, or will, happen again. Until we can find that proof, let's stop wasting time on projects like this.
Well, why don't you read more
The last near miss was only 3 times farer away than moon. It also was only less than 6 monthes ago.
Yes it was a near miss, not a near hit
Near not in the sense of "nearly" but in the sense of "close by".
Unfortunatly with our current way of handling this issue we will get the information of a impact only some monthes before it will happen.
Probbly you conclude from that that there is no proof.
angel'o'sphere
Re:Question: Why should we care? (Score:2)
We have proof that asteroids have hit the Earth in the past, but no solid proof that it can, or will, happen again. Until we can find that proof, let's stop wasting time on projects like this.
Gosh, you're so right... After all, Slammer nailed a bunch of computers, but that was in the past, and there's no solid proof that any virus or worm ever will occur again! Until we can find that proof, let's stop wasting time on firewalls and security.
Thing is, if we detect an asteroid with current technology, we might have only a few months warning - as it currently takes a minimum of about 6 weeks of preparation to launch a _single_ shuttle, what do you think we're going to be able to do to deflect an asteroid?
By the time we find out about one, it's probably going to be too late to start thinking about plans to stop it.
-T
Re:Question: Why should we care? (Score:2, Insightful)
That sounds an awful lot like what the Global Warming folks do.
Re:Question: Why should we care? (Score:2)
You are assuming that WARNING_TIME > DEVELOPMENT_TIME. That's a very dangerous gamble. Sure, cancer kills a lot of people, but it isn't going to kill everyone.
Re:One has to question (Score:5, Informative)
It has been hit, very spectacularly, had it been Earth that was hit I doubt we would be discussing this.
See:
Comet Shoemaker-Levy Collision with Jupiter [nasa.gov]
Re:How do you assess the threat? (Score:2, Insightful)
How do you know unless you've assessed the threat? Are you willing to bet possibly the entire earth's population on it? $150 million is nothing compared to the money spent on making cars safer.
Re:How do you assess the threat? (Score:2)
Well, we know that asteroid impacts are unsafe at any speed. I think that Congress should mandate airbags on asteroids. Just think of it, when the next Siberian asteroid hits, you'll just hear an explosive "THWUP!", and large sections of remote forest will be gently flattened by a big inflated cushion.
Next, we'll have NBC panic-mongering about the federal asteroid impact research scene by rigging tests with Saturn V rocket boosters hidden on the things. "See how it explodes on impact?"
Maybe, when we have warm fuzzies about the North Koreans again, we can get one of the things classified as a replacement 'axis of evil' member.
In any case all this running around yelling about the asteroid threat is pretty misplaced, thanks to the helpful tips from the department of homeland security (duck tape all your windows! Stock up on gummi bears!)
As an American citizen, I feel pretty safe from the things, anyway--it doesn't at all fit into my way of life (nobody to sue if one hits, really.)
On the other hand, if we ever catch wind that one's going to hit L.A., we can convince some of the locals that they're aliens on a mission of peace, so they'll go stand directly under it, waving signs that read "welcome to earth!". Should cushion the impact a bit. Or maybe we'll just issue Powerbooks to every wild-eyed scientists out there--that'll let them completely scramble the asteroid's central computer and cause it to self-destruct.
In any case, even if it takes out half the planet, it won't be that serious. After all, the internet is designed to route around the occasional localized outage; as long as I can still get my morning comics online, all's well in my world.
Re:How do you assess the threat? (Score:1, Flamebait)
Yup. Youre a moron. Thanks for saving me the effort there, Tolstoy. Look out for that Shuttle debris!! Its TOXIC!