Everything Is Going to Kill Everybody (13 page)

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Authors: Robert Brockway

Tags: #Technology & Engineering, #Sociology, #Humor, #Social Science, #Nature, #Science, #Disasters & Disaster Relief, #General, #Environmental, #Natural Disasters, #Ecology, #System failures (Engineering), #Hazardous substances, #Engineering (General), #Death & Dying

BOOK: Everything Is Going to Kill Everybody
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Unfortunately, if an asteroid is on a direct collision course with Earth, that very fact makes it less likely we’ll be able to see it until it’s far too late. Typically, we track asteroids by virtue of their movement parallel to us. But when they’re coming right for us, we can’t see them moving. They just look like beautiful, harmless specks of light. But even more worrisome are the asteroids already inside Earth’s orbital path—the ones whose path the Earth is intersecting with regularly, the ones closest to us, the ones most likely to hit; we can’t see those asteroids because they’re so close to us that they’re backlit by the sun. Remember the old campfire horror story about the babysitter trying to trace the threatening phone calls she’s been receiving? Well, that babysitter is us, and that serial killer is the asteroids, and good lord! I—I hate to break it to you, but … those phone calls are coming from
inside the house
.

Things You’ll Have Time to Say Between Noticing an Incoming Meteor and Death
  • “I alw—”
  • “Get u—”
  • “Oh go—”
  • “Whatthefuckisthat?”

To give us a better shot at avoiding secret, invisible, flaming space death, a team of researchers in Canada is launching a small satellite telescope to help us spot these near-orbit asteroids better, but it’s a low-budget venture and it could do only so much. And while something is always better than nothing, keep in mind that there are more than five thousand asteroids dangerously close to Earth that have already been discovered using just our meager existing technology—it’s kind of hard to get stoked about the mere
possibility
of the
potential
to
maybe
spot a
few
more. Launching a satellite to slightly extend our sight range is like wearing a bulletproof vest when more than five thousand guns are pointing at you—yes, a few of those bullets are gonna be stopped, but any way you cut it, somebody’s winding up as meat Jell-O in this situation, and we’re a planet-sized target.

But hey, don’t worry, the government is totally on this one: A more official (well, more official than Canada anyway) approach is already under way. The U.S. Congress has introduced the NEO Preparedness Act, a bill mandating that we create a special program called the Office of Potentially Hazardous Near-Earth Object Preparedness, which would develop the technology to track 90 percent of all near-earth objects (NEOs), even those as small as 140 meters, by the year 2020. You better believe NASA’s on that shit too; they’ve decided that we would need a much larger version of Canada’s tracking satellite in place, preferably near Venus’s orbit, to achieve this Congress-mandated goal. Unfortunately, it would cost about 1.1 billion dollars for fifteen years of operation, and that’s just not in NASA’s budget. Also unfortunately, Congress is far too busy asking if baseball players are really as strong as they seem and trying to choke bankers with wads of cash to grant more funds to such trifling matters as the avoidance of space bullets, so they won’t give NASA the money. NASA scientists have stated that they intend to get to work on pursuing other, less costly plans, but seeing as how Congress is probably scheduling appointments to review whether wrestling is real and appointing a committee to decide exactly how awesome the last season of
LOST
is going to be, NASA probably shouldn’t hold their breath on this whole “averting Armageddon” thing.

But maybe we’re getting ahead of ourselves. The last one of these asteroids to initiate an extinction-level event was more than 65 million ago, so how present is this danger, really?

Well, in 1908 we had a little practice drill for an ELE when a chunk of rock half the size of a football stadium exploded over Siberia, initiating a blast with the strength of about fifteen megatons—roughly one thousand times the strength of the bomb that fell on Hiroshima. With temperatures reaching 5,000 degrees, the impact destroyed two thousand square kilometers of forest—literally laying the trees out flat on their sides in enormous radial circles like a satanic Spirograph.

One witness, stationed at a local trading post, described what he saw:

Suddenly in the north sky … the sky was split in two, and high above the forest the whole northern part of the sky appeared covered with fire. … At that moment there was a bang in the sky and a mighty crash. … The crash was followed by a noise like stones falling from the sky, or of guns firing. The earth trembled.

This man witnessed an event
so traumatic
that he could only speak in biblical terms afterward.

It was ominously phrased prophecies of doom delivered by traumatized, grizzled old Russians like that that spurred interest in the NEO Preparedness Office, which would not only track future potential meteor impacts through orbital telescopes, but is intended to help research and fund a plethora of solutions. Apparently operating under the Kitchen Sink philosophy of panicking and throwing everything we have at any potential threat, NASA proposes to use everything from “gravity tractors” to “a shit-ton of nuclear missiles” to deter impacts. That gravity tractor idea sounds pretty crazy, but really it’s just a plan to send a spaceship to tow the asteroid away. Some other proposed solutions, like firing a solar laser at it, or wrapping it entirely in plastic like a planetary Hot Pocket, are far more bizarre. The most practical solution on the table is that aforementioned nuclear blast, but there’s a major problem that prevents us from even nuking the damn thing: Blasting an asteroid apart preimpact could just fragment it into thousands of smaller but still Earth-impacting meteoroids. So now instead of a punch to the face, we’ve turned it into a shotgun blast. A nuclear shotgun blast aimed right at us. And that’s our best option!

Brainstorming Notes on How to Repel Incoming Meteor Strikes from NASA NEO Meeting
  • Blow the fucking thing up.
  • Divert it.
  • Like, push the Earth out of the way somehow?
  • Last idea is stupid. How can you push a planet?
  • Bigger gravity tractor.
  • Invent Hulk, have Hulk punch.
  • Ask Jesus.

But one possible solution to this problem is the concept of nuclear pulse propulsion—essentially, using nuclear blasts as a kind of engine to push the meteor away from us without damaging it. They want to use nuclear explosions as the
fuel
in a gargantuan space engine that they’ll attach to an incoming planet-killing asteroid. So really, if you can gauge the level of a threat based on the truly, epically insane lengths people are willing to go to prevent it, then you should probably start burrowing underground and asking every woman you see if she’d like to repopulate the Earth with you, because the only thing crazier than the plot of a Bruce Willis movie coming to life and ending the planet is the psychotic ways the government is trying to stop it.

And even if nature, fate, and God don’t conspire to seal our fates with a giant rock kiss, we just might do it ourselves. Carl Sagan, in his book
Pale Blue Dot
, reasoned that any method capable of turning meteors away from Earth could ultimately be just as effective at rerouting otherwise harmless asteroids toward us. Sagan thought that since political leaders are all basically batshit insane, Earth will be at greater risk from a man-made impact than from anything naturally occurring. So he believed that by introducing ideas meant to avert disaster, we would actually give the bad guys some ideas to invite that same disaster. As if to prove his point, the Soviet Union read his theories and immediately set about work on Project: Ivan’s Hammer, a military operation whose sole purpose was the complete weaponization of space by steering incoming asteroids toward specific global targets. Sagan was immediately struck dead by the irony. May he rest in peace, though he’s far more likely spinning in his grave.

So even if the randomness of space doesn’t kill us, there are people on Earth more than willing to take up the slack? I guess it’s really only a matter of time before it happens. It could be any minute … it could happen … right … now! Ah, just kidding.

You’ve got until 2029.

Oh, I’m sorry, what? You didn’t know? That’s when the next one might hit. It’s named Apophis, and it’s very excited to meet you. It would shake your hand, but it prefers to say hello more the old-fashioned way: with explosions. But after that, shall we say,
warm welcome
, the conversation might turn
chilly
when the impact winter sets in! That is, assuming you don’t die from
awesome pun overload
first … ahem. So anyway, Apophis is expected to pass dangerously close to the Earth in early 2029—closer even than our own geosynchronous satellites! And though leading scientists say it’s unlikely to hit based on their projections, with a probability of only about 1 in 45,000, they also mention that their projections at this point are “not an exact science,” which, when you think about it, is a pretty shitty thing to hear from an astrophysicist. Add the fact that these trajectories are easily influenced by any and all outside force—from planetary pull to space junk (you know, like those geosynchronous satellites it will be passing straight through)—and it’s still somewhat unlikely that Apophis will hit in 2029. But any alteration of its course resulting from those satellite impacts could result in it hitting the Earth the next time it comes around … in 2036.

Events with a Probability of About 1 in 45,000
  • Stubbing both toes in the same day on the same thing.
  • Finding a $20 bill on the street.
  • Winning fifth prize on Scratch-it.
  • All life on Earth being blown to holy shit by an asteroid twenty years from now.

Apophis isn’t going to be an asteroid one-night stand, scaring you just the one time and disappearing forever. No, this is more like an asteroid
relationship
, and my friends, I’m sorry to say that it is a dysfunctional one. If you’re the kind of person who likes to look on the upside, though, you could think of it this way: It’s like a bonus! You looked in the box expecting only one, but now you’ve got two free, heaping scoops of explosive death in every box of your terror flakes. There’s also a supersecret prize inside. (Hint: It’s more explosions.)

13.
VERNESHOT

THE EARTH IS A
gun, and your country is a bullet. No, those aren’t poorly translated Japanese metal band lyrics, nor are they the pseudo-poetic mewling of jilted emo children; those words could be, terrifyingly enough, a completely true statement. It’s all because of something called a Verneshot, and
though the theory is still under debate, it is the only one so far that explains why mass extinctions, severe geological damage, and volcanic eruptions often occur simultaneously all throughout history. Not content to simply state that “some shit went down,” scientists have instead begun pointing to the Verneshot. And then probably screaming. And then dying.

That’s just what the Verneshot does.

The big extinction that we all know about—a meteor killed the dinosaurs—is referred to as the Cretaceous-Tertiary, or K-T, extinction. New theories suggest that that disaster could have been caused by a Verneshot rather than a meteor impact. A team of scientists led by Jason Phipps Morgan at the GEOMAR Earth Science Institute at Kiel University first proposed the theory, which goes like this: Huge volumes of volcanic gas slowly build up beneath layers of impenetrable rock, called cratons. When those rocks start splitting apart ever so slightly, the built-up gases explode through the weak points—blowing the craton into a suborbital trajectory. The expelled chunk of rock is launched into the air, orbits the Earth briefly, and then crashes back to the planet with nearly the force of a meteor impact. Meanwhile, the tube that formerly held all the gas has emptied, pouring its noxious contents into the atmosphere. It then collapses in upon itself, causing an earthquake.

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