Related to: 'The Genius Test: Maths'

Quercus

The Genius Test

Giles Sparrow
Authors:
Giles Sparrow

Are you clever enough to master the world's hardest ideas? Can you explain Quantum Theory? What is the Higgs Boson? And what are you looking at when you're looking at Modern Art?The Genius Test takes you on a journey through humanity's most brain-bending ideas, from the big bang and the origins of life to chaos theory, existentialism and special relativity, challenging you to understand and providing the tools to help you master the big ideas. Shortcuts to becoming a genius include: · Are you a Genius? quizzes - questions to test your knowledge· The 10 things a Genius would know· Talk like a Genius - intellectual conversation gambits· A Bluffer's summary The Genius Test challenges you to understand 50 subjects including: The Hard Problem of consciousness; the human genome; Evo-devo; the human brain; A.I.; Fermat's Last Theorem; the Riemann Hypothesis; Gödel's Theorem of Incompleteness; Post-modernism; Modern architecture; Keynesianism; Semiotics and Structuralism; Schrödinger's cat; DNA; Deconstructivism; the mind-body problem; Superstrings; Quantum Theory; The Big Bang; black holes...and many more.

Quercus

The Genius Test

Giles Sparrow
Authors:
Giles Sparrow

Are you clever enough to master the world's hardest ideas? Can you explain Quantum Theory? What is the Higgs Boson? And what are you looking at when you're looking at Modern Art?The Genius Test takes you on a journey through humanity's most brain-bending ideas, from the big bang and the origins of life to chaos theory, existentialism and special relativity, challenging you to understand and providing the tools to help you master the big ideas. Shortcuts to becoming a genius include: · Are you a Genius? quizzes - questions to test your knowledge· The 10 things a Genius would know· Talk like a Genius - intellectual conversation gambits· A Bluffer's summary The Genius Test challenges you to understand 50 subjects including: The Hard Problem of consciousness; the human genome; Evo-devo; the human brain; A.I.; Fermat's Last Theorem; the Riemann Hypothesis; Gödel's Theorem of Incompleteness; Post-modernism; Modern architecture; Keynesianism; Semiotics and Structuralism; Schrödinger's cat; DNA; Deconstructivism; the mind-body problem; Superstrings; Quantum Theory; The Big Bang; black holes...and many more.

Quercus

Numericon

Marianne Freiberger, Rachel Thomas
Authors:
Marianne Freiberger, Rachel Thomas

Quercus

50 Maths Ideas You Really Need to Know

Tony Crilly
Authors:
Tony Crilly

Who invented zero? Why 60 seconds in a minute? How big is infinity? Where do parallel lines meet? And can a butterfly's wings really cause a storm on the far side of the world? In 50 Maths Ideas You Really Need to Know, Professor Tony Crilly explains in 50 clear and concise essays the mathematical concepts - ancient and modern, theoretical and practical, everyday and esoteric - that allow us to understand and shape the world around us. Packed with diagrams, examples and anecdotes, this book is the perfect overview of this often daunting but always essential subject. For once, mathematics couldn't be simpler. Contents include: Origins of mathematics, from Egyptian fractions to Roman numerals; Pi and primes, Fibonacci numbers and the golden ratio; What calculus, statistics and algebra can actually do; The very real uses of imaginary numbers; The Big Ideas of relativity, Chaos theory, Fractals, Genetics and hyperspace; The reasoning behind Sudoku and code cracking, Lotteries and gambling, Money management and compound interest; Solving of Fermat's last theorem and the million-dollar question of the Riemann hypothesis.

riverrun

¡Golazo!

Andreas Campomar
Authors:
Andreas Campomar
Quercus

How to Solve the Da Vinci Code

Richard Elwes
Authors:
Richard Elwes

Can you outrun a bullet? How do you build an electronic brain? Is it possible to create an unbreakable code? Could you slow down time? How do you unleash chaos? If you thought mathematics was all about measuring angles in a triangle or factorizing equations, think again ... How to Build a Brain and 34 Other Really Interesting Uses of Mathematics demystifies the astonishing world of maths in a series of intriguing, entertaining and often extraordinary scenarios - that explain key concepts in plain and simple language. You'll find out how to unknot your DNA, how to count like a supercomputer and how to become famous for solving mathematics most challenging problem. You'll learn essential survival skills such as how to survive in a whirlpool, how to slay a mathematical monster and how to be alive and dead at the same time. And along the way you'll discover some plain old cool stuff like how to unleash chaos, how to create an unbreakable code and how to use the mathematics to win at roulette or avoid going to prison. So if you want to get to grips with the great questions of number theory and geometry, the mysteries of the prime numbers or Plato's classification of regular polyhedra, or if you are really more interested in learning how to have beautiful children or how to make a million on the stock market, this is the perfect introduction to the fascinating world of modern mathematics.

Quercus

Maths in Minutes

Paul Glendinning
Authors:
Paul Glendinning

Quercus

Maths in Minutes

Paul Glendinning
Authors:
Paul Glendinning

Quercus

The Big Questions: Mathematics

Tony Crilly
Authors:
Tony Crilly
Quercus

Maths 1001

Dr Richard Elwes
Authors:
Dr Richard Elwes
Quercus

Taming the Infinite

Ian Stewart
Authors:
Ian Stewart

Andreas Campomar

Andreas Campomar is a publishing director, and has reviewed for, among others, the Daily Telegraph, Times Literary Supplement and the Spectator. He is the great-grand-nephew of Dr Enrique Buero, the man who convinced Jules Rimet to stage the first World Cup in Montevideo and later became Vice-president of FIFA.

Dr Richard Elwes

Dr Richard Okura Elwes is a writer, teacher, and researcher in mathematics and a Senior Teaching Fellow at University of Leeds, UK. He is the author of the books How to Build a Brain, The Maths Handbook, Maths in 100 Key Breakthroughs, and Chaotic Fishponds and Mirror Universes (all published by Quercus), and has written for New Scientist and Plus Magazine. His research interests include mathematical logic and random processes.

Giles Sparrow

Giles Sparrow studied Astronomy at University College London, and works as an editor specializing in popular science. He is the author of - amongst other books - The Universe and How To See It, The Stargazer's Handbook and Hubble: Window on the Universe and was a major contributor to Dorling Kindersley's Universe.

Ian Stewart

Professor Ian Stewart is a world renowned populariser of mathematics. In 1995 he was awarded the Royal Society's Michael Faraday Medal for furthering the public understanding of science. He has been awarded the 1998 Communications Award of the Joint Policy Board for Mathematics in the USA, the 2000 Gold Medal of the Institute for Mathematics and Its Applications, and the 2002 Award for Public Understanding of Science and Technology.He is the author of over 20 popular science and mathematics titles including Does God Play Dice?, Nature's Numbers (shortlisted for the 1996 Rhone-Poulenc Prize), Life's Other Secret and Flatterland, which was in the top 20 Bestseller List in the USA.Professor Stewart is the mathematics consultant for New Scientist, and has been a consultant for Encyclopaedia Britannica. From 1990 to 2001 he wrote the 'Mathematical Recreations' column in Scientific American. He is an active research mathematician with over 160 published papers and is currently Professor of Mathematics at Warwick University where he is Director of the Mathematics Awareness Centre. He was elected a Fellow of the Royal Society in 2001.

Julia Collins

Julia Collins has a PhD in 4-dimensional Knot Theory from the University of Edinburgh, where she spent five years as the Mathematics Engagement Officer, with a remit to lecture and spread an appreciation of mathematics. She is now Outreach Officer at the Australian Mathematical Sciences Institute. Julia's writing has been published in Nature and in Princeton University Press' anthology The Best Writing on Mathematics. She is a winner of the How to Talk Maths in Public competition, has been nominated for the London Mathematical Society's Anne Bennett prize, and organised the world's first Maths Craft Festival.

Paul Glendinning

Paul Glendinning is Professor of Applied Mathematics at the University of Manchester. He was a student and a lecturer at Cambridge before moving to a chair at Queen Mary, University of London and then Manchester (UMIST). He was founding Head of School for Mathematics at the combined University of Manchester and has published over fifty academic articles and an undergraduate textbook on chaos theory.

Richard Elwes

Dr Richard Elwes is a writer, teacher and researcher in Mathematics and a Visiting Fellow at the University of Leeds. He contributes to New Scientist and Plus Magazine and publishes research on model theory. Dr Elwes is a committed populariser of mathematics which he regularly promotes at public lectures and on radio. He is the author of Mathematics 1001 published by Quercus.

Tony Crilly

Tony Crilly is Reader in Mathematical Sciences at Middlesex University, having previously taught at the University of Michigan, the City University in Hong Kong, and the Open University. His principal research interest is the history of mathematics, and he has written and edited many works on fractals, chaos and computing. He is the author of the acclaimed biography of the English mathematician Arthur Cayley.

Rachel Thomas

Marianne Freiberger and Rachel Thomas are the Editors of Plus Magazine (plus.maths.org), a free online magazine opening a door to the world of maths for the general public. Before joining Plus in 2005, Marianne did a PhD in pure mathematics, followed by three years as a postdoc at Queen Mary, University of London. She has also been Editor-in-Chief of the mathscareers website. Rachel worked as a maths consultant for business, government and industry, after completing her Masters in pure mathematics at the University of Western Australia. She has edited the Gazette of the Australian Maths Society and designed mathematical walking tours with Marcus du Sautoy for Maths in the City. Rachel and Marianne were also editors of the popular maths book 50: Visions of Mathematics (OUP, 2014).