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'Modest, humble, and uncommonly smart': How a Soviet mathematician quietly solved the mystery of planet formation
'Modest, humble, and uncommonly smart': How a Soviet mathematician quietly solved the mystery of planet formation
'Modest, humble, and uncommonly smart': How a Soviet mathematician quietly solved the mystery of planet formation

We've only got to grips with how the planets in our solar system formed in the last 100 years. In the extract below from "What's Gotten Into You" (HarperCollins, 2023), Dan Levitt looks at the Soviet mathematician who spent a decade working on a problem that most astronomers had given up on, and — when he finally solved it — was met with disinterest and skepticism.

Over 4.8 billion years ago, the atoms that would create us sailed in great clouds of gas and dust, toward… well, nothing. There was no solar system, no planets, no Earth. In fact, for a long time, scientists could not explain how our solid planet, not to mention one so hospitable to life, appeared at all. How was our now-rocky planet conjured, like magic, out of an ethereal cloud of gas and dust? How and when did Earth become so welcoming to life? And what travails were our molecules forced to brave until life could evolve?

Scientists would learn that our atoms could finally create life only after they endured wrenching collisions, meltdowns, and bombardments — catastrophes that beggar any destruction ever witnessed by humankind.

Explaining how our planets were created seemed so difficult that, by the 1950s, most astronomers had given up. Their theories appeared to lead nowhere. Two centuries before, the German philosopher Immanuel Kant and the French scholar Pierre-Simon Laplace had begun, promisingly enough, by correctly theorizing that gravity reeled in a massive spinning cloud of gas and dust so tightly that fierce temperatures and pressures ignited it into a star — our sun. But how did the planets form? They posited that a disk of stray dust and gases still remained spinning around the Sun, and this broke into smaller clouds that created the planets. However, no one could convincingly explain how the disk broke up or how the planets formed from these lesser clouds.

Related: Crystal-studded space rock found in the Sahara may rewrite the history of the early solar system

In 1917, the Englishman James Jeans took an inventive new tack that, as we saw, Cecilia Payne's contemporaries endorsed. Jeans surmised that the gravitational pull from a passing star was so strong that it wrenched massive chunks of gas from the sun's surface — and these became the planets. Others thought that our planets were debris left behind by the collisions of stars. But how nine distant planets formed from such a collision was anybody's guess. It seemed as likely as if you had put wet laundry in a dryer and then opened it to find your clothes not just dry, but neatly folded. Only a few astronomers continued to take the question seriously. It was a matter fit only for "innocent entertainment," or "outrageous speculation," observed the astronomer George Wetherill. It simply wasn't clear that we could ever see so far back in time.

Nevertheless, in the Soviet Union in the late 1950s, at the height of the Cold War, a young physicist decided to tackle the problem head on — with mathematics. His name was Viktor Safronov. Safronov was slight in stature and struggled with malaria, a legacy of his military training in Azerbaijan during World War II. He was modest, humble, and uncommonly smart. At Moscow University, he distinguished himself with advanced degrees in physics and mathematics. Recognizing his talent, the mathematician, geophysicist, and polar explorer Otto Schmidt recruited him to the Soviet Academy of Sciences.

Schmidt himself, like Kant and Laplace before him, was sure that our planets had been created from a disk of gas and dust that orbited the Sun. He wanted someone with the technical skill to help him puzzle out how, and the soft-spoken Safronov was a brilliant mathematician.

In fact, his lack of a computer may have even helped, by forcing him to sharpen his already formidable intuition.

In an office at the Academy of Sciences, Safronov started at the beginning. He took upon himself the daunting task of trying to explain how trillions upon trillions of gas and dust particles could build a solar system. He would try to do it with mathematics — primarily statistics and equations of fluid dynamics, which describe the flow of gases and liquids. All this without computers. In fact, his lack of a computer may have even helped, by forcing him to sharpen his already formidable intuition.

Safronov began by assuming that our solar system first took shape when the vast primordial cloud of dust and gas, which in the previous chapter we left floating in space, was transformed by the relentless pull of gravity into a star. Almost all of it (99%, we know now) became our sun. But lingering remnants were too far away to be dragged into the sun, yet not distant enough to fully escape its clutches. Instead, gravity and the centripetal force of rotation flattened this cloud into a disk of dust and gases orbiting around the sun.

Safronov, who dazzled colleagues with his gift for making quick mathematical estimations, set out to compute what happened when tiny particles within the disk smacked into one another and then struck their neighbors. With pencil and paper and a slide rule, perhaps in the quiet of a library where Soviet scientists often retreated from the hubbub of large common offices, he doggedly attempted to estimate the effects of trillions upon trillions of collisions. That was an incredibly daunting endeavor, with or without a computer. By comparison, one would think that calculating the path of a hurricane from the initial water droplets forming in clouds would be child's play.

Safronov realized that the swarm of cosmic dust and gas orbiting the sun would be traveling around at roughly the same speed and direction. Sometimes, when the particles bumped into their neighbors, they would stick together like snowflakes. More collisions begat bigger and bigger clumps, until they were as large as boulders, ocean liners, mountain ranges, and eventually mini-planets. Building on his insight, Safronov single-handedly outlined most of the major problems scientists would need to solve in order to explain the origin of our planets. And with mathematical bravado, he conquered many of them.

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For years, he had the field of planetary formation, which he had created, virtually to himself. Most Soviet colleagues were skeptical and uninterested; his research appeared so speculative, so far removed from any evidence. Then, in 1969, Safronov published a slim paperback, a retrospective of his decade of lonely work. He presented a copy to a visiting American graduate student, who passed it on to NASA with a recommendation that they have it published. Three years later, an English version appeared in the West.

It would revolutionize our understanding of how Earth and all planets are created.

Text from What's Gotten Into You: The Story of Your Body's Atoms, from the Big Bang Through Last Night's Dinner. Reprinted by permission of HarperCollins Publishers.

What's Gotten Into You: The Story of Your Body's Atoms, from the Big Bang Through Last Night's Dinner - $12.78 at Amazon

For readers of Bill Bryson, Neil deGrasse Tyson and Siddhartha Mukherjee, a wondrous, wildly ambitious, and vastly entertaining work of popular science that tells the awe-inspiring story of the elements that make up the human body, and how these building blocks of life travelled billions of miles and across billions of years to make us who we are.

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