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Asteroids: When the time comes to duck

Jonathan Amos | 23:09 UK time, Friday, 29 October 2010

Somewhere out in space there鈥檚 a big rock that has our address on it.

Throughout geological history, our planet has been hit by a succession of major asteroids and the probabilities suggest further impacts will occur in the future.

No-one can say today when these might happen; we haven鈥檛 yet identified an asteroid of sufficient size and on a path that gives us immediate cause for concern.

Artist's impression of an asteroid mission

If an object was sent to strike the asteroid, the rock's course could be subtly changed

But the evidence hints strongly that something could find us sooner or later, and we need to be ready.

On average, an object about the size of car will enter the Earth's atmosphere once a year, producing a spectacular fireball in the sky.

About every 2,000 years or so, an object the size of a football field will impact the Earth, causing significant local damage.

And then, every few million years, a rock turns up that has a girth measured in kilometres. An impact from one of these will produce global effects.

We know of some (NEOs) today that are several km wide but fortunately none of them comes close enough to make us sweat.

The important thing is we keep looking. The has been running since the late 1990s.

It was tasked with finding 90% of the potentially hazardous objects out there larger than 1km and it鈥檚 about 80% through this search. A few years back, the US Congress asked Nasa to extend the survey to include rocks down to about 140m in size.

That requires more and better telescopes and these are coming online. You will hear much more information on NEOs in the coming years because of this finer-scale sweep of the skies.

When a potentially hazardous rock is discovered, one of the best ways to determine its true status is to complete a study using radar, an extremely powerful tool.

Facilities such as the in Puerto Rico or the can pin down a rock鈥檚 key properties, determining its velocity to a precision of better than 1mm per second, and enabling scientists to compute its orbit hundreds of years into the future.

One of the more interesting facts that I became aware of recently is just how many of these objects are actually binaries 鈥 that鈥檚 to say, when the radar observations are done it becomes apparent that the asteroid is really two asteroids, or even a trio.

Toutatis

Contact binary: Toutatis (4.5km long) frequently gets to within a couple of Earth-Moon distances

Some of these are what are termed contact binaries 鈥 they touch each other. These are the objects that look like giant peanuts. (My favourite contact binary is the , although this is a long way from Earth and no threat to us).

About a quarter of all the objects investigated by radar turn out to be binaries of some kind.

So the inevitable question arises, what do we do if we find that huge rock with our address on it?

The powers that be are on the case. A lot of this work goes under the , and in this context a meeting took place this week hosted by the European Space Agency.

The Mission Planning and Operations Group (MPOG) workshop included astronauts and space scientists.

It was the latest in a series organised to report to the UN's Committee on the Peaceful Uses of Outer Space.

The gathering of experts urged the world鈥檚 space agencies to improve their search and tracking capabilities, and to start developing concepts to deflect asteroids.

One of the leading figures in this initiative is the Apollo 9 astronaut . He鈥檚 the chairman of the , which , and was one of the attendees at the MPOG meeting. He characterises the threat thus:

鈥淎t the upper end, you鈥檙e talking about wiping out the dinosaurs and most of life on Earth 65 million years ago; at the smaller end you鈥檙e talking about a million objects that hit the Earth last night 鈥 we call them shooting stars. It鈥檚 the objects in between that occur every few hundred years that we鈥檙e concerned with.鈥

Schweickart is convinced the solutions are within reach to deal with most hazardous asteroids on a collision path with Earth. In the majority of cases, the preferred concept would look much like which saw a shepherding spacecraft release an impactor to strike a comet.

This gentle nudge, depending when and how it's done, could change the velocity of the rock ever so slightly to make it arrive 鈥渁t the intersection鈥 sufficiently early or late to miss Earth.

According to Schweickart, rear-ending an asteroid may be the easy part, however. Getting the world鈥檚 bureaucracy to act on the threat in a timely fashion may be the bigger challenge, he believes. And here鈥檚 why.

Consider the . For a while, before the calculations were detailed enough, there was some concern this object might hit Earth in 2036. The .

But just imagine for a moment that it was headed right for us and we needed to do something about it.

Take a look at the map below. We know enough about the plane of Apophis鈥檚 orbit to understand where this rock would intersect the Earth, and it would be somewhere along the red line.

Now imagine the UN meeting convened to discuss whether the mission sent up to deflect the asteroid should try to slow or accelerate the rock. The choice is important because it would determine where on the line the rock would hit if the mission is not entirely successful in getting the asteroid to pass by the Earth.

In other words, one strategy chosen over the other would lessen the risks for some while increasing them for others.

So, you can bet Russia, Venezuela and Senegal would have very different views on which mission profile should be chosen.

That鈥檚 why Schweickart believes the geopolitical obstacles need to be tackled now and the mechanisms put in place to deal with thorny issues like the one I鈥檝e just described:

鈥淚f we can get past that bureaucratic challenge, we can in fact prevent [large] asteroid impacts from hitting again in our future. This is an amazing and rather audacious statement to make, but if we really do our job right, we should never be hit again by an asteroid that can do serious damage to life on Earth.鈥
Apophis plane of intersection with Earth

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