Nicholas Mee achieved a top distinction in Part III of the Mathematical Tripos of the University of Cambridge and gained his PhD there in theoretical particle physics, with the thesis Supersymmetric Quantum Mechanics and Geometry. He is Director of software company Virtual Image and author of over 50 multimedia titles. He has played key roles in numerous science and art projects including the Symbolic Sculpture project with John Robinson, the European SCIENAR project, and the 2012 Henry Moore and Stringed Surfaces exhibition at the Royal Society. He is the award-winning author of several popular science books, including Higgs Force: Cosmic Symmetry Shattered (Quantum Wave Publishing Limited 2012), The Physical World: An Inspirational Tour of Fundamental Physics (OUP 2017), The Cosmic Mystery Tour (OUP 2019), and Celestial Tapestry (OUP 2020).
It's welcome that Nicholas Mee has updated his fine book to include, in this new edition, the exciting recent advances in studying gravity and its cosmic manifestations. But what makes the book special is that the narrative builds on a fascinating description of the historical context that can be traced right back to ancient times. * Lord Martin Rees, Astronomer Royal, former President of the Royal Society * With clear diagrams, questions and puzzles and interesting notes for each chapter this is an unusually stimulating book. * Sir James Hough, Associate Director of the Institute for Gravitational Research, Research Professor in Natural Philosophy, University of Glasgow * The quality of writing is high, the style is engaging and the explanations clear and accessible. * Mike Cruise, Emeritus Professor of Astrophysics and Space Research, University of Birmingham * Written in an engaging and readable style, this book brings us right up to date in all things concerning gravity. * Julian Onions, Astrophysicist, University of Nottingham * Gravity: From Falling Apples to Supermassive Black Holes is written in a captivating historical style with stories about the researchers of the past and present that illuminate many key ideas in astronomy and physics. * MathSciNet *