Category: SCI057000

Youniverse: A Short Guide to Modern Science

Your guide to science, from the Big Bang to AI

Whether you wish to discover the basics of science or catch up on its latest developments, this short accessible guide is for you.

YOUNIVERSE describes in simple terms the world you are inseparably a part of: what it is, how it works and your place in it – insofar as these things are known. The text has been vetted by 13 distinguished scientists.

Journey now through time and space, a world of the unimaginably big and the inconceivably small – though the marvels of science.

*PRAISE FOR YOUNIVERSE*

‘This is a fine piece of work… very entertaining and informative… It should appeal and be useful to the generalist who wants an overview of science.’ Sir Peter Ratcliffe, 2019 Nobel Prize winner and head of clinical research at the Francis Crick Institute

Through Two Doors at Once

The clearest, most accessible explanation yet of the amazing world of quantum mechanics. 

How can matter behave both like a particle and a wave? Does a particle exist before we look at it or does the very act of looking bring it into reality? Are there hidden elements to reality missing from the orthodox view of quantum physics? And is there a place where the quantum world ends and our perceivable world begins?

Many of science’s greatest minds have grappled with these questions embodied by the simple yet elusive "double-slit" experiment. Thomas Young devised it in the early 1800s to show that light behaves like a wave, and in doing so opposed Isaac Newton’s theories. Nearly a century later, Albert Einstein showed that light comes in particles, and the experiment became key to a fierce debate with Niels Bohr over the nature of reality. Richard Feynman held that the double slit embodies the central mystery of the quantum world. Hypothesis after hypothesis, scientists have returned to this ingenious experiment to help them answer the deep questions about the fabric of our universe.

With his extraordinary gift for making the complicated comprehensible, Anil Ananthaswamy travels around the world and through history, down to the smallest scales of physical reality we have yet fathomed for the answers.

***PRAISE FOR THROUGH TWO DOORS AT ONCE***

A Physics Book of the Year

A Forbes Best Book of the Year

A Kirkus Best Book of the Year

A Smithsonian Favourite Book of the Year 

Publisher’s Weekly Best Books of Autumn

‘A fascinating read and a must for anyone who would like to find out the latest experimental advances made in this most fundamental of quantum experiments.’ Physics World

‘Ananthaswamy cleverly comes at quantum physics from a different direction… An excellent addition to the ‘Quantum physics for the rest of us’ shelf.’ Brian Clegg, author of Are Numbers Real? and The Quantum Age

‘A challenging and rewarding survey of how scientists are grappling with nature’s deepest, strangest secrets.’ Wall Street Journal

‘A fascinating tour through the cutting-edge physics the experiment keeps on spawning.’ Scientific American

‘Ananthaswamy gives an absolutely mind-boggling tour of how quantum physicists try to explain this “reality” that one of the most powerful scientific models of our era.’ Smithsonian 

‘Offers beginners the tools they need to seriously engage with the philosophical questions that likely drew them to quantum mechanics.’ Science

‘At a time when popular physics writing so valorizes theory, a quietly welcome strength of Ananthaswamy’s book is how much human construction comes into focus here. This is not “nature” showing us, but us pressing “nature” for answers to our increasingly obsessional questions.’ Washington Post

‘Ananthaswamy’s book is simply an outstanding exploration of the double slit experiment and what makes it so weird.’ Forbes

‘A thrilling survey of the most famous, enduring, and enigmatic experiment in the history of science.’ Kirkus, starred review

Amazing Story Quantum Mechanics

In the pulp magazines and comics of the 1950s, it was predicted that the future would be one of gleaming utopias, with flying cars, jetpacks, and robotic personal assistants. Obviously, things didn’t turn out that way. But the world we do have is actually more fantastic than the most outlandish predictions of the science fiction of the mid-20th century. The World Wide Web, pocket-sized computers, mobile phones and MRI machines have changed the world in unimagined ways. In ‘The Amazing Story of Quantum Mechanics’, James Kakalios uses examples from comics and magazines to explain how breakthroughs in quantum mechanics led to such technologies. The book begins with an overview of speculative science fiction, beginning with Jules Verne and progressing through the space adventure comic books of the 1950s. Using the example of Dr. Manhattan from the graphic novel and film Watchmen, Kakalios explains the fundamentals of quantum mechanics, and describes nuclear energy via the hilarious portrayals of radioactivity and its effects in the movies and comic books of the 1950s. Finally, he shows how future breakthroughs will make possible ever more advanced medical diagnostic devices – and perhaps even power stations on the moon that can beam their power to earth.

Quantum Enigma

Everyone knows that sub-atomic particles have some very strange qualities. Light sometimes behaves like a particle, sometimes like a wave. Objects separated by vast distances interact faster than the speed of light – what Einstein called ‘spooky action at a distance’. Most strangely, the behaviour of objects somehow seems be determined in retrospect, depending on what the observer is looking for. In this ground-breaking work the authors show how these quantum properties are being observed in larger and larger objects. They set out carefully and cautiously exactly what quantum theory might mean for us. Quantum physics presents an unanswerable challenge to our common sense understanding of the universe, and the final explanation might not come from physics at all, but from the equally strange world of cognitive neuro-science – the mysteries of mind and matter might be one and the same.