Here are 100 books that Thirty Years That Shook Physics fans have personally recommended if you like
Thirty Years That Shook Physics.
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I’m a research physicist working in fusion energy and astrophysics. To explain our work, I’ve had to overcome the misconceptions about science that are widespread in the media and among the general population. These books are the best ones I know to correct the mystification of science, especially of topics like quantum mechanics, time, consciousness, and cosmology.
OK, maybe it’s funny to recommend a book that sold in the millions. But this, and the TV series that went along with it, remains the best explanation of the evolution of astronomy and, especially, the social context for that evolution. Carl Sagan is by far the best science popularizer of the past century.
* Spacecraft missions to nearby planets * The Library of ancient Alexandria * The human brain * Egyptian hieroglyphics * The origin of life * The death of the sun * The evolution of galaxies * The origins of matter, suns and worlds
The story of fifteen billion years of cosmic evolution transforming matter and life into consciousness, of how science and civilisation grew up together, and of the forces and individuals who helped shape modern science. A story told with Carl Sagan's remarkable ability to make scientific ideas both comprehensible and exciting.
I’m a research physicist working in fusion energy and astrophysics. To explain our work, I’ve had to overcome the misconceptions about science that are widespread in the media and among the general population. These books are the best ones I know to correct the mystification of science, especially of topics like quantum mechanics, time, consciousness, and cosmology.
This groundbreaking work, published posthumously, is the first attempt to explain consciousness as the product of the evolutionary process. In doing this, Teilhard de Chardin outlines many characteristics of the evolutionary process that have never been described before. It is his effort to unite evolutionary theory, a Marxist view of evolution, and….Christianity.
The final chapter trying to drag Christ into this scientific work did not impress me, but it does not detract from the earlier chapters either.
Visionary theologian and evolutionary theorist Pierre Teilhard de Chardin applied his whole life, his tremendous intellect, and his great spiritual faith to building a philosophy that would reconcile religion with the scientific theory of evolution. In this timeless book, which contains the quintessence of his thought, Teilhard argues that just as living organisms sprung from inorganic matter and evolved into ever more complex thinking beings, humans are evolving toward an "omega point"—defined by Teilhard as a convergence with the Divine.
I’m a research physicist working in fusion energy and astrophysics. To explain our work, I’ve had to overcome the misconceptions about science that are widespread in the media and among the general population. These books are the best ones I know to correct the mystification of science, especially of topics like quantum mechanics, time, consciousness, and cosmology.
This best explains why the dominant ideas in the popular version of science are wrong and why the right ideas make sense. Prigogine, a Nobel Laureate, and his colleague philosopher Isabelle Stengers show that the popular notions of the Second Law of Thermodynamics, time, and determinism don’t correspond to scientific observations.
These wrong notions lead to paradoxes that make it impossible for scientists to understand such basic phenomena as human consciousness, which makes all science possible. Instead, the authors lay out an evolutionary approach, validated by much research, that shows how time, evolution, and reality can be understood without mysticism.
Order Out of Chaos is a sweeping critique of the discordant landscape of modern scientific knowledge. In this landmark book, Nobel Laureate Ilya Prigogine and acclaimed philosopher Isabelle Stengers offer an exciting and accessible account of the philosophical implications of thermodynamics. Prigogine and Stengers bring contradictory philosophies of time and chance into a novel and ambitious synthesis. Since its first publication in France in 1978, this book has sparked debate among physicists, philosophers, literary critics and historians.
I’m a research physicist working in fusion energy and astrophysics. To explain our work, I’ve had to overcome the misconceptions about science that are widespread in the media and among the general population. These books are the best ones I know to correct the mystification of science, especially of topics like quantum mechanics, time, consciousness, and cosmology.
While this book is not about science, it gives the social context for how ancient scientific and anti-scientific ideas developed in slave-owning societies and before. It is the best description of the development of human society to the end of the ancient period that I’ve ever read.
Unfortunately, some of the anti-science ideas of ancient slave-owners, discredited in the scientific revolution, are still with us today, and Child explains how they came to be.
Since my first college course in quantum physics, I have been fascinated with this enigmatic, infinitely interesting theory. It's our most fundamental description of the universe, it's been found to be unerringly accurate, yet it's quite subtle to interpret. Even more intriguingly, "nobody really understands quantum physics" (as Richard Feynman put it). For example, the theory's central concept, the wave function, is interpreted radically differently by different physicists. I have always yearned to grasp, at least to my own satisfaction, a comprehensive understanding of this theory. Since retirement 23 years ago, I have pursued this passion nearly full-time and found some answers, leading to several technical papers and a popular book.
Given the radically distinct and often incongruent views of what quantum physics means, it is wise to glean a balanced sense of many views by studying the topic's history. Kumar's telling of the great, decades-long debate between two of the field's leading practitioners is authoritative and excitingly told. The book centers on the founding of quantum physics during the 1920s, the famous 1927 Solvay Conference on photons and electrons, and the thoughtful debate between Bohr and Einstein concerning the nature of reality. The author is a physicist, philosopher, and science writer.
'This is about gob-smacking science at the far end of reason ... Take it nice and easy and savour the experience of your mind being blown without recourse to hallucinogens' Nicholas Lezard, Guardian
For most people, quantum theory is a byword for mysterious, impenetrable science. And yet for many years it was equally baffling for scientists themselves.
In this magisterial book, Manjit Kumar gives a dramatic and superbly-written history of this fundamental scientific revolution, and the divisive debate at its core. Quantum theory looks at the very building blocks of our world, the particles and processes without which it could…
I am a professor of quantum physics—the most notoriously complicated science humans have ever invented. While the likes of Albert Einstein commented on how difficult quantum physics is to understand, I disagree! Ever since my mum asked me—back while I was a university student—to explain to her what I was studying, I’ve been on a mission to make quantum physics as widely accessible as possible. Science belongs to us all and we should all have an opportunity to appreciate it!
Quantum physics is supposed to be weird and mysterious, right? You might then get the impression that Beyond Weird will explain how quantum physics is weirder than weird. But, no! Beyond Weird is about how we can beyond the concept that quantum physics is weird. Philip Ball does an amazing job telling the story of how physicists have tried to make sense of quantum theory.
"Anyone who is not shocked by quantum theory has not understood it."
Since Niels Bohr said this many years ago, quantum mechanics has only been getting more shocking. We now realize that it's not really telling us that "weird" things happen out of sight, on the tiniest level, in the atomic world: rather, everything is quantum. But if quantum mechanics is correct, what seems obvious and right in our everyday world is built on foundations that don't seem obvious or right at all-or even possible.
An exhilarating tour of the contemporary quantum landscape, Beyond Weird is a book about what…
I am the co-founder and current owner of The Manhattan Rare Book Company. I’ve been in the rare book business for 25 years, specializing in the history of science with particular emphasis on material relating to Albert Einstein. Like many people, I’ve long been drawn to Einstein, attracted by his wisdom, curiosity, personality, approachability, and general decency.
Of all the books I've read about Einstein, this one was, perhaps, the most eye-opening for me. For years, the prevailing opinion was that while Einstein was (of course) brilliant, and his special and general theories of relativity were seismically important, he was on the wrong side of history with his views on quantum theory. Stone sets the record straight: Einstein was indeed skeptical of many aspects of quantum theory (particularly with his refusal to accept quantum entanglement and inherent randomness), but his challenges to the theory were so intelligent and so piercing, that the entire scientific community had to respond to him. Stone argues convincingly that Einstein's concerns were often the driving force propelling the theory forward.
Einstein and the Quantum reveals for the first time the full significance of Albert Einstein's contributions to quantum theory. Einstein famously rejected quantum mechanics, observing that God does not play dice. But, in fact, he thought more about the nature of atoms, molecules, and the emission and absorption of light--the core of what we now know as quantum theory--than he did about relativity. A compelling blend of physics, biography, and the history of science, Einstein and the Quantum shares the untold story of how Einstein--not Max Planck or Niels Bohr--was the driving force behind early quantum theory. It paints a…
I am a physics professor with a passion for teaching. When I was a graduate student, I took required courses in classical mechanics, classical electrodynamics, quantum mechanics, and statistical mechanics. Some of the textbooks assigned by my professors were good; some were not so good. In every case, it was extremely helpful to read what other authors had to say about these foundational subjects. Four of the five books I recommend below are my personal favorites among these serious physics books. My fifth book choice is less serious and does not teach physics, but it will improve your graduate student experience nonetheless.
This book helped me pass my PhD qualifying exam. The writing style is crisp and qualitative arguments abound. Baym treats perturbation theory and scattering theory particularly nicely and your interest will never flag because he illustrates the formal theory with wonderfully chosen examples like K-meson interference effects, the Van der Waals interaction, Cooper pairing, spin resonance, multipole radiation, Klein’s paradox, and the Hanbury-Brown and Twiss experiment. A special treat not found in other textbooks is a discussion of Julian Schwinger’s unique take on the quantum theory of angular momentum.
These lecture notes comprise a three-semester graduate course in quantum mechanics at the University of Illinois. There are a number of texts which present the basic topics very well; but since a fair quantity of the material discussed in my course was not available to the students in elementary quantum mechanics books, I was asked to prepare written notes. In retrospect these lecture notes seemed sufficiently interesting to warrant their publication in this format. The notes, presented here in slightly revised form, consitutute a self-contained course in quantum mechanics from first principles to elementary and relativistic one-particle mechanics. Prerequisite to…
As a professor, I see students fascinated by science, but petrified to take a science class. This is in part because we have dehumanized science, removed the story, edited out the human, deleted the parts that allow people to connect with it. Science does not get delivered by gods, but is created by people: smart, quirky, sometimes immoral people. As a writer, my hope is to be able to reinsert life into readers’ understanding of our greatest advances. As a reader myself, I am deeply appreciative when other authors do it too.
The early period of the development of quantum mechanics were heady days, full of fascinating characters and factional infighting. As Europe was about to tear itself apart again, the physics community had also fractured. Jones explains the scientific fault lines and the personal relations (some of them quite racy!) that were in play as the modern theory of the atom unfolded.
Theoretical physics is in trouble. At least that's the impression you'd get from reading a spate of recent books on the continued failure to resolve the 80-year-old problem of unifying the classical and quantum worlds. The seeds of this problem were sewn eighty years ago when a dramatic revolution in physics reached a climax at the 1927 Solvay conference in Brussels. It's the story of a rush to formalize quantum physics, the work of just a handful of men fired by ambition, philosophical conflicts and personal agendas. Sheilla Jones paints an intimate portrait of the key figures who wrestled with…
John Gribbin has a Ph.D. in Astrophysics and is best known as an author of science books. But he has a not-so-secret passion for science fiction. He is the award-winning author of more than a hundred popular books about science, ranging from quantum mysteries to cosmology, and from evolution to earthquakes. He has also produced a double-handful of science fiction books. He specialises in writing factual books about the kind of science that sounds like fiction (including time travel), and fictional books based on scientific fact (including climate change). His recent book Six Impossible Things was short-listed for the prestigious Royal Society prize, but he is equally proud of Not Fade Away, his biography of Buddy Holly.
This might seem a bit off-message because Pohl dropped out of college before finishing his science degree. But he did work as a weather forecaster in the US Navy. And I can’t resist including this book, because it deals with the area of science closest to my heart – many worlds, or parallel universes. The existence of these other worlds next door to our own is the best scientific explanation of the mysteries of quantum physics, such as the famous puzzle of Schrödinger’s Cat, and Pohl wraps it all up in entertaining fashion with a story of what happens when those worlds interact. The fact that Pohl includes a version of myself (actually, several versions of me) in the story has no bearing on my choosing it. I repaid the compliment by including him as a character in my story “Untanglement”, included in my anthology Don’t Look Back' ;-).
A brilliant novel of alternate universes by an award-winning science fiction master
A breakthrough in quantum physics has shattered the boundaries between alternate worlds. History is in chaos as billions of possible futures collide. As a conquering army mounts an invasion of neighboring realities, a handful of men and women from a dozen different timelines risk their lives to safeguard an infinity of worlds.
Blending thrilling suspense with brilliant scientific speculation, Frederik Pohl’s The Coming of the Quantum Cats is a triumph of the imagination by a Hugo and Nebula–winning master of science fiction.
