快猫短视频

Reality: Is everything made of numbers?

Dig deep enough into the fabric of reality and you eventually hit a seam of pure mathematics
[video_player id=鈥8ib6oqMM鈥漖Video: What lies at the heart of the universe
On wings of mathematics (Sienna Morris/Rex Features)
On wings of mathematics (Sienna Morris/Rex Features)

Read more:Special issue: What is reality?

WHEN Albert Einstein finally completed his general theory of relativity in 1916, he looked down at the equations and discovered an unexpected message: the universe is expanding.

Einstein didn鈥檛 believe the physical universe could shrink or grow, so he ignored what the equations were telling him. Thirteen years later, Edwin Hubble found clear evidence of the universe鈥檚 expansion. Einstein had missed the opportunity to make the most dramatic scientific prediction in history.

How did Einstein鈥檚 equations 鈥渒now鈥 that the universe was expanding when he did not? If mathematics is nothing more than a language we use to describe the world, an invention of the human brain, how can it possibly churn out anything beyond what we put in? 鈥淚t is difficult to avoid the impression that a miracle confronts us here,鈥 wrote physicist Eugene Wigner in his classic 1960 paper 鈥The unreasonable effectiveness of mathematics in the natural sciences鈥 ().

The prescience of mathematics seems no less miraculous today. At the Large Hadron Collider at CERN, near Geneva, Switzerland, physicists recently observed the fingerprints of a particle that was arguably discovered 48 years ago lurking in the equations of particle physics.

How is it possible that mathematics 鈥渒nows鈥 about Higgs particles or any other feature of physical reality? 鈥淢aybe it鈥檚 because math is reality,鈥 says physicist Brian Greene of Columbia University, New York. Perhaps if we dig deep enough, we would find that physical objects like tables and chairs are ultimately not made of particles or strings, but of numbers.

鈥淭hese are very difficult issues,鈥 says philosopher of science James Ladyman of the University of Bristol, UK, 鈥渂ut it might be less misleading to say that the universe is made of maths than to say it is made of matter.鈥

Difficult indeed. What does it mean to say that the universe is 鈥渕ade of mathematics鈥? An obvious starting point is to ask what mathematics is made of. The late physicist John Wheeler said that the 鈥渂asis of all mathematics is 0 = 0鈥. All mathematical structures can be derived from something called 鈥渢he empty set鈥, the set that contains no elements. Say this set corresponds to zero; you can then define the number 1 as the set that contains only the empty set, 2 as the set containing the sets corresponding to 0 and 1, and so on. Keep nesting the nothingness like invisible Russian dolls and eventually all of mathematics appears. Mathematician Ian Stewart of the University of Warwick, UK, calls this 鈥渢he dreadful secret of mathematics: it鈥檚 all based on nothing鈥 (快猫短视频, 19 November 2011, p 44). Reality may come down to mathematics, but mathematics comes down to nothing at all.

That may be the ultimate clue to existence 鈥 after all, a universe made of nothing doesn鈥檛 require an explanation. Indeed, mathematical structures don鈥檛 seem to require a physical origin at all. 鈥淎 dodecahedron was never created,鈥 says of the Massachusetts Institute of Technology. 鈥淭o be created, something first has to not exist in space or time and then exist.鈥 A dodecahedron doesn鈥檛 exist in space or time at all, he says 鈥 it exists independently of them. 鈥淪pace and time themselves are contained within larger mathematical structures,鈥 he adds. These structures just exist; they can鈥檛 be created or destroyed.

That raises a big question: why is the universe only made of some of the available mathematics? 鈥淭here鈥檚 a lot of math out there,鈥 Greene says. 鈥淭oday only a tiny sliver of it has a realisation in the physical world. Pull any math book off the shelf and most of the equations in it don鈥檛 correspond to any physical object or physical process.鈥

It is true that seemingly arcane and unphysical mathematics does, sometimes, turn out to correspond to the real world. Imaginary numbers, for instance, were once considered totally deserving of their name, but are now used to describe the behaviour of elementary particles; non-Euclidean geometry eventually showed up as gravity. Even so, these phenomena represent a tiny slice of all the mathematics out there.

Not so fast, says Tegmark. 鈥淚 believe that physical existence and mathematical existence are the same, so any structure that exists mathematically is also real,鈥 he says.

鈥淧HYSICAL EXISTENCE AND MATHEMATICAL EXISTENCE ARE ONE AND THE SAME鈥

So what about the mathematics our universe doesn鈥檛 use? 鈥淥ther mathematical structures correspond to other universes,鈥 Tegmark says. He calls this the 鈥渓evel 4 multiverse鈥, and it is far stranger than the multiverses that cosmologists often discuss. Their common-or-garden multiverses are governed by the same basic mathematical rules as our universe, but Tegmark鈥檚 level 4 multiverse operates with completely different mathematics.

All of this sounds bizarre, but the hypothesis that physical reality is fundamentally mathematical has passed every test. 鈥淚f physics hits a roadblock at which point it turns out that it鈥檚 impossible to proceed, we might find that nature can鈥檛 be captured mathematically,鈥 Tegmark says. 鈥淏ut it鈥檚 really remarkable that that hasn鈥檛 happened. Galileo said that the book of nature was written in the language of mathematics 鈥 and that was 400 years ago.鈥

If reality isn鈥檛, at bottom, mathematics, what is it? 鈥淢aybe someday we鈥檒l encounter an alien civilisation and we鈥檒l show them what we鈥檝e discovered about the universe,鈥 Greene says. 鈥淭hey鈥檒l say, 鈥楢h, math. We tried that. It only takes you so far. Here鈥檚 the real thing.鈥 What would that be? It鈥檚 hard to imagine. Our understanding of fundamental reality is at an early stage.鈥