The Science of Discworld I tsod-1

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The Science of Discworld I tsod-1 Page 34

by Terry Pratchett


  It is also a very powerful weapon…

  Another possibility is power beaming. It is possible to 'beam' electromagnetic power from the ground in the form of microwaves. This isn't just fantasy: in 1975 Dick Dickinson and William Brown beamed 30 kilowatts of power, enough for thirty electric fires -over a distance of one mile. James Benford and Myrabo have sug­gested launching a spacecraft using millimetre range microwaves which are not attenuated by the atmosphere. This is a variation on the laser method and would use the same kind of projectile.

  Both of these methods rely on a lot of raw power, betraying traces of the basic engineering assumption that getting into space needs a lot of energy to overcome the Earth's gravity. They do have the advantage that the raw power is just sitting on the planet; the 1,000 megawatt power station your laser launcher would require could generate for the National Grid when a launch wasn't going on.

  A method of greater subtlety is the bolas, first proposed in the 1950s. Traditionally, a bolas is a hunting device made by tying three weights to strings and then tying the ends of the strings together. When thrown, it spins, pulling the weights apart, until the strings hit the target, at which point the weights spiral rapidly inwards and deal a killing blow. The same sort of device could be set up in a ver­tical plane above the equator, a bit like a giant ferris wheel with only three spokes. On the ends of the spokes would be pressurized cab­ins. The lowest part of the bolas's swing would be somewhere in the lower atmosphere, the top part way out in space. You would fly up in an aircraft, transfer to the first passing cabin, and be whisked skywards. The biggest obstacle to making such a machine is the cable, which has to be stronger than any known material, but car­bon fibre is well on the way to combining enough strength with enough lightness. Friction with the atmosphere would gradually slow the bolas's rotation down, but that could be compensated for using solar power arrays up in space.

  The most celebrated device of this type, however, is the space elevator. We discussed this in the opening chapter, both as a serious technological idea and as a metaphor: here we give a few more details. In essence, the space elevator starts out as a satellite in geo­synchronous orbit. Then you drop a cable from it to the ground, and the rest is a matter of building a suitable cabin and, again, find­ing suitable material for the cable. You get the material up there using rockets or a whole cascade of bolases (and once you've got a small cable you can haul up the stuff for the bigger one). You only need to do all this once, so the cost is irrelevant over the longer term.

  As we emphasized at the start of the book, once there is as much traffic is coming down as is going up, getting off the ground is essentially free and requires zero energy. At that point you build your interplanetary spacecraft up in space, using raw materials from the Moon or the asteroid belt. So the space elevator gives you a new place to start from, which is why we've used it as a metaphor for processes like life.

  The idea of a space elevator was originated by the Leningrad engineer Y.N. Artsutanov in 1960, in an article in Pravda. He called it a 'heavenly funicular' and calculated that it could lift 12,000 tons per day into orbit. The idea came to the attention of Western scien­tists in 1966, thanks to John Isaacs, Hugh Bradner, and George Backus. These scientists weren't interested in getting into space: they were oceanographers, the only people seriously interested in hanging things on long cables. Except that they wanted to hang them down into the ocean bottoms, not up into space. The oceanog­raphers were unaware of the earlier Russian work, but Artsutanov's anticipation quickly became known to Western scientists too. The astronaut and artist Alexei Leonov published a painting of a space elevator in action in 1967.

  Such a simple but mostly impractical idea is likely to occur to lots of people, but wouldn't become widely known because it's not practical with current or near-future technology, and that means that it will be re-invented independently by many people. In 1963 the science-fiction author Arthur C. Clarke considered suspending a lower satellite by cable from a geosynchronous one, as a way to increase the number of effectively geo- synchronous satellites for communication purposes. Later he realized that the same method would lead to the space elevator, an idea that he developed in his novel The Fountains of Paradise. In 1969 A.R. Collar and J.W. Flower also considered suspending a lower satellite by cable from a geosynchronous one And in 1975 Jerome Pearson suggested an 'orbital tower' that was essentially the same idea.

  You can, of course, suspend more than one cable, once you've got one space elevator you can lift everything else that you need into space at low cost, so why not go the whole hog? Charles Sheffield's The Web Between the Worlds envisages a whole ring of space eleva­tors round the equator. This is what the wizards have found. Ironically, because human civilization has taken such a short time to develop, on evolutionary timescales, the wizards missed us ...

  Having built your space elevator, you're now in a position to colo­nize other worlds. The obvious first destination is Mars. You get there in a cloud of small, mass-produced ships, and once you've got there one of the first things you do is drop down a cable and build a Martian space elevator. You're up in orbit anyway, so why not take advantage of the fact? Again, this is the metaphorical aspect of the space elevator: as soon as just one exists, it opens up a vast range of new possibilities. However, you'll probably need to land a team by some other method in order to construct the complex at the bottom to which the cable will be tethered.

  Mars isn't a great place to live, so the next step is to terraform it, to make it more earthlike. There are reasonably plausible methods for doing that, detailed at length in Kirn Stanley Robinson's series Red Mars, Green Mars, Blue Mars. Mars is no improvement when it comes to meteor-strikes, but at least the colony on Mars is unlikely to get wiped out at the same time as the main population on Earth. Because life is reproductive, if one of them does get wiped out, it can quickly be re-colonized from the other. After a few cen­turies, you'd hardly notice any difference. Still, it may be better to be more ambitious and go to the stars. By the time we're ready for that, we'll have interferometer telescopes good enough to spot which stars have suitable planets. The only problem, then, will be to get there.

  There are plenty of suggestions, and we won't add to them. Think of mid-Victorians predicting life in the 1990s. The dynamic of extelligence is emergent or, to put it another way, we haven't the faintest idea what we'll think of next but it'll probably surprise us.

  One way, if all else fails, is the Generation Ship, a huge vessel that can hold an entire city of people, who live, breed, educate, and die throughout the centuries-long journey. Make it big and inter­esting enough, and they may even lose interest in the destination. The Discworld almost counts as one of these; it's on a journey, the inhabitants don't know where they're going, the designers have given it a small controllable sun (thus doing away with all those nasty fluctuations) and no less than five bio-engineered creatures positively delight in clearing local space of intrusive debris ...

  Back on our world, you could take a really long-term view and seed the galaxy with genetically engineered bacteria, carefully tailored so that whenever they find a suitable planet they eventually evolve into humanoid life (or life, at least). We would die out, but maybe our fleet of cheap, slow ships might seed a few new Earths somewhere.

  There's no shortage of ideas. Some might even be practical. The galaxy beckons. We might die trying, but since we're going to die anyway, why not try?

  And what will we find out there? Will we find a radically differ­ent kind of 'space elevator', for instance? Well, if there are aliens that live on neutron stars, as Robert L. Forward describes in Dragon's Egg, then they might escape by tilting their world's mag­netic axis, turning it into a pulsar, and surfing its plasma jet. Perhaps all those pulsars were formed in this way. Like any 'space elevator', if you can manage the trick once, the rest is easy. The inhabitants of one neutron star managed it, and colonized all the others, founding the Pulsar Empire ...

  And sinc
e we can envisage new kinds of physical space elevator, there must surely also be new kinds of metaphorical space elevator. Not just aliens a bit like us, but radically different new kinds of life.

  What else could live on a neutron star?

  They're waiting.

  43. YOU NEED CHELONIUM

  'THAT,' SAID THE DEAN, 'was a very unpleasant business. Good thing we weren't really there.'

  Rincewind was sitting at the end of the long table, his chin on his hand.

  'Really?' he said. 'You thought that was bad? Try having a comet land on you. That really makes your day.'

  'It was the music that really got on my nerves,' said the Senior Wrangler.

  'Oh, well, good job the planet's a snowball, then,' said Rincewind.

  'I call this meeting to order,' said Ridcully, thumping the table. 'Where's the Bursar?'

  The wizards looked around the main hall of the High Energy Magic building.

  'I saw him half an hour ago,' the Dean volunteered.

  'We are quorate, nevertheless,' said Ridcully. 'Now ... the magic flux is almost run down, although HEX reports that the model uni­verse appears to be continuing on internal power. Amazing the way the whole place seems to strive to keep existing. However ... gen­tlemen, the project is at an end. All it is has taught us is that you can't make a world out of bits and pieces. You need chelonium for a proper world. And you certainly need narrativium, otherwise the life you get is a lot of opening chapters. A comet is no way to end a story. Ice and fire ... that's very primitive.'

  'Poor old crabs,' said the Senior Wrangler.

  'Goodbye, lizards,' said the Dean.

  'Farewell, my limpet,' said the Lecturer in Recent Runes.

  'What were the ones that left?' said Ponder.

  'Er ...' said Rincewind.

  'Yes?' said the Archchancellor.

  'Oh, nothing. I had a thought... but it couldn't possibly work.'

  'Some of the bears seemed quite bright,' said Ridcully, who had naturally sided with a lifeform that resembled him in several par­ticulars.

  'Yes, yes, it was probably the bears,' said Rincewind quickly.

  'We couldn't watch the whole world ail the time,' said Ponder. 'Something could have evolved quickly, I suppose.'

  'Yes, that's right, something probably evolved quickly,' said Rincewind. 'I shouldn't think there was any unauthorized interfer­ence in any way.'

  'Good luck to them, whatever shape they're in,' said Ridcully. He assembled his papers. 'That's it, then. I won't say it hasn't been an interesting few days, but reality calls. Yes, Rincewind?'

  'What are we going to do with the snow globe, I mean, the world?' said Rincewind.

  As one wizard, they looked across at the world spinning gently in its dome.

  'Is it any use to us, Mister Stibbons?' said Ridcully.

  'As a curiosity, sir.'

  'This university is stuffed with curiosities, young man.'

  'Well, then ... only as very large paperweight.'

  'Ah. Rincewind ... you an the Professor of Cruel and Usual Geography, so I suppose this is right up your street...'

  There was a rattle from HEX's tray. Ponder pulled out the paper.

  It said: +++ The Project Must Be Kept Safe +++

  'Fine. Rincewind can put it on a high shelf so that it doesn't get knocked,' said Ridcully, rubbing his hands together.

  +++ Recursion Is Occurring +++

  Ridcully blinked at the writing.

  'Is that a problem?'

  HEX creaked. There was a flurry of activity in the ant tubes. Eventually the write-out clattered for some time.

  Ponder picked up the message.

  'Er ... it's addressed to Mrs Whitlow,' he said. Er ... it's rather odd...'

  Ridcully looked over his shoulder.

  '"Don't Dust It",' he read.

  'She's a devil with a duster,' said the Senior Wrangler. 'The Dean nails his door shut when he leaves his study.'

  The write-out clattered again.

  '"This Is Important",' Ponder read.

  'Not a problem, not a problem,' said Ridcully. 'So on to the next item. Ah, yes. We have to shut down the reacting engine. No, don't get up, Rincewind, I've had the door locked. The interior of the squash court is still just a tiny bit not entirely completely safe, is that right, Mr Stibbons?'

  'Very definitely!'

  'And therefore the area within it quite clearly counts as...'

  'Let me guess,' said Rincewind. 'It's cruel and unusual geogra­phy, yes?'

  'Well, done, that man! And all you have to do...'

  A sound that had been on the limit of hearing suddenly descended through the scales. And there was silence.

  'What's that?' said Ridcully.

  'Nothing,' said Rincewind, with unusual accuracy.

  'The reacting engine has shut down,' said Ponder.

  'By itself?'

  'Not unless it can pull its own levers, no ...'

  The wizards clustered around the door to the old squash court. Ponder held up his thaumometer.

  'There's hardly any flux now,' he said. 'It's practically back­ground ... Stand back ...'

  He opened the door.

  A couple of white pigeons flew out, followed by a billiard ball. Ponder pulled aside a cluster of flags of all nations.

  'Just natural fallout,' he called out. 'Oh ...'

  The Bursar ambled around the side of the reacting engine, wav­ing a squash racket.

  'Ah, Ponder,' he said. 'Have you wondered if Time isn't simply Space rotated through a right angle?'

  'Er ... no ...' said Ponder, watching the man carefully for signs of thaumic breakdown.

  'It would certainly make pretzels very interesting, don't you think?'

  'Er ... have you been playing squash, sir?' said Ponder

  'You know, I'm really coming to believe that a closed contour is a boundary, up to parametrization, if and only if it is homotopic to zero,' said the Bursar. 'And, for preference, coloured green.'

  'Did you touch any switches, sir?' said Ponder, maintaining a careful distance.

  'This thingy here does make some shots very difficult,' said the Bursar, hitting the reacting engine. 'I was trying to hit the rear wall around last Wednesday.'

  'I think perhaps we should leave,' said Ponder in a clear, firm tone. 'It will soon be teatime. There will be jelly,' he added.

  'Ah, the fifth form of matter,' said the Bursar brightly, following Ponder.

  The other wizards were waiting just outside the door.

  'Is he all right?' said Ridcully. 'I mean by general bursarial stan­dards, of course.'

  'It's hard to tell,' said Ponder, as the Bursar beamed at them. 'I think so. But the reacting engine must had been putting out quite a high flux when he went in.'

  'Perhaps none of the thaumic particles hit him?' said the Senior Wrangler.

  'But there's millions of them, sir, and they can pass through any­thing!'

  Ridcully slapped the Bursar on the back.

  'Bit of luck for you, eh, Bursar?'

  The Bursar looked puzzled for a moment, and then vanished.

  44. EDEN AND CAMELOT

  THIS BOOK WASN'T CALLED The Religion of Discworld for a reason, although, Heaven knows, there is plenty of raw material. All religions are true, for a given value of 'truth'.

  The disciplines of science, however, tell us that we live on a world formed from interstellar debris some four billion years ago in a universe which itself is about 15 billion years old (which is science-speak for 'a very long time'); that in the ensuing years it has been pummelled and frozen and re-arranged on a reg­ular basis; that despite or rather because of this, life turned up very quickly and seems to spring back renewed and re-formed from every blow; and that we ourselves evolved on this planet and, with the suddenness of a bursting dam, became Top Species in a very short period of time.

  Actually, science tells us that many cockroaches, bacteria, bee­tles, and even small mammals might argue that last state
ment, but since they are not good at debate and can't speak, who cares what they think? Especially since they can't, eh? A key thing about big brains is this: they know big brains are good.

  Most of us don't think like scientists. We think like the wizards of Discworld. Everything in the past was leading inevitably to Now, which is the important time.

  While the news that the Earth is a small planet in a dull part of the universe has caught on in recent centuries, it's only in the last few decades that the words 'the Earth' have come to mean, for a sig­nificant proportion of any society, 'the planet' rather than 'the soil'. We watch the fireworks as great balls of ice plummet into the atmosphere of a nearby planet and, although any one of them would have seriously troubled the Earth, the event was just that: a firework display. As one old lady told a news reporter, 'that sort of thing happens in Outer Space'. But we're in Outer Space, too, and it might pay us to get good at it.

  The dinosaurs were not, as suggested in Jurassic Park, 'selected for extinction', they were clobbered by a very large rock, and/or its after-effects. Rocks don't think.

  The dinosaurs were in fact doing very well, and had merely neg­lected to develop three-mile thick armour plating. They may even have evolved something that we'd recognize as 'early civilization'; we shouldn't underestimate how much the surface of the planet can change in 65 million years. But rocks don't care, either.

 

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