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Zero: The Biography of a Dangerous Idea by…
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Zero: The Biography of a Dangerous Idea (original 2000; edition 2000)

by Charles Seife

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2,456506,086 (3.81)36
The Babylonians invented it, the Greeks banned it, the Hindus worshipped it, and the Church used it to fend off heretics. Today, zero lies at the heart of one of the biggest scientific controversies of all time, the quest for the theory of everything. Line illustrations. Zero follows the number from its birth as an Eastern philosophical concept to its struggle for acceptance in Europe and its apotheosis as the mystery of the black hole. Elegant, witty, and utterly fascinating, Zero takes us from Aristotle to superstring theory by way of Pythagoras, Descartes, the Kabbalists, and Einstein. It is a compelling look at the strangest number in the universe, and one of the greatest paradoxes of human thought. "A stunning chronicle."-U.S. News & World Report. "Entertainingly traces the history of numbers from 30,000 years ago, down to the role that zero plays in contemporary cosmological theory. After finishing, his readers will feel they've accomplished a considerable something."-the New York Times. "Charles Seife has made a marvelously entertaining something out of nothing. By simply telling the tale of zero, Seife provides a fresh and fascinating history not only of mathematics but also of science, philosophy, theology, and even art. An impressive debut for a promising young science writer."-John Horgan.… (more)
Member:roundballnz
Title:Zero: The Biography of a Dangerous Idea
Authors:Charles Seife
Info:Souvenir Press Ltd (2000), Paperback, 256 pages
Collections:Your library
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Zero: The Biography of a Dangerous Idea by Charles Seife (2000)

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Showing 1-5 of 49 (next | show all)
This book started off slowly for my tastes and expectations, with a strong philosophical and cultural bent. For me, it picked up steam once the author got more into the mathematical and scientific aspects of the "bio". Even there, I found it surprising how much the religious and cultural overtones impacted the thinking about science and math. ( )
  tgraettinger | Aug 21, 2023 |
Ever since my teacher in 4th grade asked the class what was one divided by zero and I said infinity.....and was roundly condemned, on the grounds that a) it was meaningless to divide by zero and b) "you can't divide by zero" .........I've been on a mild personal quest to prove the teacher wrong. So I've had a bit of an unhealthy interest in the concept of zero and this book certainly caught my attention. I thought it would have all the answers. Well it has a few and bits of it are interesting. For example, it was interesting to me to find that the Babylonians invented the concept; the Greeks banned it; the Hindus worshipped its and the Christian church used it to fend of heretics until forced to accept it. I found that there is almost as much about infinity in this book as there is about zero.....both concepts have proved especially puzzling.
Seife suggests that now-days everybody knows that zero can't really sit anywhere on the number line, because it has a definite numerical value its own. It is the number that separates the positive numbers from the negative numbers. It is an even number, and it is an integer that precedes one. Zero must sit in its rightful place on the number line; before one and after negative one. Nowhere else makes any sense. Yet zero sits at the end of the computer and at the bottom of the telephone because we ways start counting with one. And, I must say, in Australia out building levels start at zero (or more usually "ground-level") but in Japan there is no zero level....ground level is One, etc.
The widespread usage of zero entered Europe via trade and commercial usage and in the end the governments had to relent in the face of commercial pressure. The Arabic notation was allowed into Italy and soon spread throughout Europe. Zero had arrived -as had the void. The Aristotelian wall was crumbling, thanks to the influence of the Muslims and the Hindus, and by the 1400s even the staunchest European supporters of Aristotelianism had their doubts. Thomas Bradwardine, who was to become archbishop of Canterbury, tried to disprove atomism, Aristotle's old nemesis. At the same time, he wondered whether his own logic was faulty, since he based his arguments on geometry, whose infinitely divisible lines automatically reject atomism. However, the battle against Aristotle was far from over. If Aristotle were to fall, the proof of God -a bulwark of the church - was no longer valid. A new proof was needed.Worse yet, if the universe were infinite, then there could be no centre. How could Earth, then, be the centre of the universe? The answer was found in zero.
With the introduction of calculus by Newton and Leibniz, mathematicians had a wonderful tool that seemed to give the right answers bu nobody could explain how those infinitesimals disappeared when squared; they just accepted the fact because making them vanish at the right time gave the correct answer. Nobody worried about dividing by zero when.... conveniently ignoring the rules of mathematics....... explained everything from the fall of an apple to the orbits of the planets in the sky. Though it gave the right answer, using calculus was as much an act of faith as declaring a belief in God. (I'm rather reminded of quantum mechanics and quantum chromodynamics).
I've never understood Riemannian mathematics and Seife has the clearest explanation that I've ever seen. Though maybe if I'd actually read some texts about Riemann geometry etc., I would understand it better. Here is part of Siege's explanation: "Riemann imagined a translucent ball sitting atop the complex plane, with the south pole of the ball touching zero. If there were a tiny light at the north pole of the ball, any figures that are marked on the ball would cast shadows on the plane below. The shadow of the equator would be a circle around the origin. The shadow of the southern hemisphere is inside the circle and the shadow of the northern hemisphere is outside (Figure 36). The origin-zero - corresponds to the south pole. Every point on the ball has a shadow on the complex plane; in a sense, every point on the ball is equivalent to its shadow on the plane and vice versa. Every circle on the plane is the shadow of a circle on the ball, and a circle on the ball corresponds to a circle on the plane ... with one exception.If you've got a circle that goes through the north pole of the ball, the shadow is no longer a circle. It is a line. The north pole is like the point at infinity that Kepler and Poncelet imagined. Lines on the plane are simply circles thatmgo through the north pole---the point at infinity. Once Riemann saw that the complex plane (with a point at infinity) was the same thing as a sphere, mathematicians could see multiplication, division, and other, more difficult operations by analyzing the way the sphere deformed and rotated. For instance, multiplying by the number i was equivalent to spinning the sphere 90 degrees clockwise.........And there it is ...on p144 1/0 = infinity and 1/infinity = zero. Was I actually right in 4th grade?
When Seife starts to get into the concepts of the Quantum zero (or the void) he seems to b e moving into slightly mystical territory tho my way of thinking but here is his rationale: How could the vacuum, which has nothing in it, have any energy at all? The answer comes from another equation Einstein's famous E=mc squared. This simple formula relates mass and energy: the mass of an object is equivalent to a certain amount of energy. (In fact, particle physicists don't measure the mast of the electron, say, in kilograms or pounds or any of the usual units of mass or weight. They say that the electron's rest man is 0.511 MeV [million electron volts] -a lump of energy.) The fluctuation in the energy in the vacuum is the same thing as a fluctuation in the amount of mass. Particles are constantly winking in and out of existence, like tiny Cheshire cats. The vacuum is never truly empty. Instead, it is seething with these virtual particles; at every point in space, an infinite number are happily popping up and disappearing. This is the zero-point energy, an infinity in the formulas of quantum the. ory. Interpreted strictly, the zero-point energy is limitless. According to the equations of quantum mechanics, more power than is stored in all the coal mines, oil fields, and nuclear weapons in the world is sitting in the space inside your toaster. When an equation has an infinity in it, physicists usually assume that there is something wrong; the infinity has no physical meaning. The zero-point energy is no different; most scientists ignore it completely. They simply pretend that the zero-point energy is zero, even though they know it is infinite.
It's a convenient fiction, and it usually doesn't matter. However, sometimes it does. In 1948 two Dutch physicists, Hendrick B. G. Casimir and Dik Polder, first realized that the zero-point energy can't always be ignored. The two scientists were studying the forces between atoms when they realized that their measurements didn't match the forces that had been predicted. In a search for an explanation, Casimir realized that he had felt the force of nothing.
Current thinking is that there is no question that the vacuum has energy; the Casimir force is witness to that fact. But is it possible that the energy of the vacuum is truly the lowest possible energy? If not, danger might be lurking in the vacuum. In 1983 two scientists suggested in Nature that tinkering with the energy of the vacuum might cause the universe to self-destruct. The paper argued that our vacuum might be a "false" vacuum in an unnaturally energetic state - like a ball perched precariously on the side of a hill. If we give the vacuum a big enough nudge, it might start rolling down the hill-settling into a lower energy state -and we would not be able to stop it. We would release a huge bubble of energy that expands at the speed of light. Though current thinking seems to dismiss this view as unlikely.
Siege, also veers into string theory...seemingly giving it the "thumbs up" though I have my on my way reservations about such a complex theory which doesn't seem to be testable.
Overall, an interesting book which looks at the concept of zero from multiple perspectives ...and not all mathematical. I give it 3.5 stars. ( )
  booktsunami | Jul 8, 2023 |
I agree that this was a great book. When I was reading it, I thought what a wonderful experience it would be if the walls between Mathmatics, History, Social Science, and English weren't so high, this type of learning could take place in a middle school setting. If I had read this book when i was in middle school, I would have been wagging my tail in math class every day. ( )
  aiman123 | Sep 12, 2022 |
This book is one of the most amazing I have ever read. Period. This is one of those books that you can honestly say is the writing of a glorious generalist. ( )
  seamus_j | Jun 30, 2022 |
Really enjoyable opening few chapters after which the book became a chore to read. Life is too short...... ( )
  skid0612 | Feb 28, 2022 |
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Author nameRoleType of authorWork?Status
Charles Seifeprimary authorall editionscalculated
Zillgitt, MichaelÜbersetzersecondary authorsome editionsconfirmed

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The Babylonians invented it, the Greeks banned it, the Hindus worshipped it, and the Church used it to fend off heretics. Today, zero lies at the heart of one of the biggest scientific controversies of all time, the quest for the theory of everything. Line illustrations. Zero follows the number from its birth as an Eastern philosophical concept to its struggle for acceptance in Europe and its apotheosis as the mystery of the black hole. Elegant, witty, and utterly fascinating, Zero takes us from Aristotle to superstring theory by way of Pythagoras, Descartes, the Kabbalists, and Einstein. It is a compelling look at the strangest number in the universe, and one of the greatest paradoxes of human thought. "A stunning chronicle."-U.S. News & World Report. "Entertainingly traces the history of numbers from 30,000 years ago, down to the role that zero plays in contemporary cosmological theory. After finishing, his readers will feel they've accomplished a considerable something."-the New York Times. "Charles Seife has made a marvelously entertaining something out of nothing. By simply telling the tale of zero, Seife provides a fresh and fascinating history not only of mathematics but also of science, philosophy, theology, and even art. An impressive debut for a promising young science writer."-John Horgan.

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