I’m a Scientist in Residence at Lux Capital, a venture capital firm that invests in startups at the frontiers of science and technology. I have a PhD in computational biology and focused my academic research on the nature of complex systems, but I soon became fascinated by the ways in which science grows and changes over time (itself a type of complex system!): what it is that scientists do, where scientific knowledge comes from, and even how the facts in our textbooks become out-of-date. As a result of this fascination, I ended up writing two books about scientific and technological change.
This is a trilogy of historical fiction about, among many other things, the invention of the modern monetary system and the Scientific Revolution. Yes, it’s a heavy lift, as it’s nearly three thousand pages long, but it’s an incredible read. And if you want to get a sense of the sheer weirdness of the early days of science—both the people involved in it, as well as the ideas that they were playing with—these books are absolutely fantastic.
Get all three novels in Neal Stephenson's New York Times bestselling "Baroque Cycle" in one e-book, including: Quicksilver, The Confusion, and The System of the World. This three-volume historical epic delivers intrigue, adventure, and excitement set against the political upheaval of the early 18th century.
I’ve always had a passion for animals since I was nine years old and wrote my first ‘book’ on animals for a school library competition. I went on to study animal behavior at university and complete a doctorate in conservation biology and seabirds in the Scottish Outer Hebrides. I’ve worked in zoos and museums, written twelve books on animals as various as killer whales and koalas, extinct megafauna, and marine reptiles. Learning more about the natural world, the people who study it, and the importance of protecting it, has been the driving force behind all of my books and a joy to share with readers.
Koalas are one of Australia’s most loved and most well-recognized animals, and yet it’s surprising how little is known about them. They feature prominently in Australian Indigenous stories, and yet were rarely used for clothing or artwork. When Europeans first arrived, it took them over 10 years before they even noticed these strange animals living in the trees above them and they have continued to bemuse scientists ever since. Ann Moyal, one of Australia’s most eminent historians of science, tackles the story of how we know what we do about koalas in an intriguing story about our patchy history with the koala, from neglect and exploitation and near extinction, to protection and international fame as the poster-child for Australian conservation.
The koala is both an Australian icon and an animal that has attained 'flagship' status around the world. Yet its history tells a different story. While the koala figured prominently in Aboriginal Dreaming and Creation stories, its presence was not recorded in Australia until 15 years after white settlement. Then it would figure as a scientific oddity, despatched to museums in Britain and Europe, a native animal driven increasingly from its habitat by tree felling and human settlement, and a subject of relentless hunting by trappers for its valuable fur. It was not until the late 1920s that slowly emerging…
An acclaimed scientist, teacher, and writer, Andrew Knoll has travelled the world for decades, investigating ancient rocks to understand the intertwined histories of our planet and the life it supports. His boyhood thrill at discovering fossils has never deserted him. It continues to motivate him to explore topics that range from the earliest records of life and the emergence of an oxygen-rich atmosphere; the diversification of both plants and animals, and the intricacies of mass extinctions, past and present. He has also participated in NASA’s exploration of Mars.
It’s one thing to appreciate that fossils record the history of life, but something else altogether to understand how we came to know that. Rudwick’s classic book recounts the discoveries, large and small, that over centuries revealed fossils to be remnants of lost worlds. An exceptional exercise in the history of science. The Meaning of Fossils is required reading for students of paleontology.
"It is not often that a work can literally rewrite a person's view of a subject. And this is exactly what Rudwick's book should do for many paleontologists' view of the history of their own field."-Stephen J. Gould, Paleobotany and Palynology
"Rudwick has not merely written the first book-length history of palaeontology in the English language; he has written a very intelligent one. . . . His accounts of sources are rounded and organic: he treats the structure of arguments as Cuvier handled fossil bones."-Roy S. Porter, History of Science
In an ideal world, I would have liked to be a cosmologist and a philosopher. But I became a philosopher with a passion for the history and philosophy of science. This has enabled me to kill two birds with one stone: I learn about the sciences that interest me (physics, evolutionary biology, political philosophy, and sociology), and I explore their philosophical consequences. My podcast, In the Beginning, there was…Philosophy is devoted to such topics.
Webster’s book is one of the best assessments of psychoanalysis.
Freud persistently claimed that psychoanalysis was a serious science. It met with hostility because it had insulted the world: by emphasizing the influence of the Unconscious on our behaviour and the role of sexuality in human life. Naturally, Freud’s claims came under scrutiny.
Webster criticizes psychoanalysis as "one of the most subtle attempts to use reason in a magical manner." Psychoanalysis is not explanatory and protects itself against refutations. Webster traces the history of the psychoanalytic movement.
The book is excellent because of Webster’s grasp of primary and secondary literature, his lucid prose, and his understanding of Freud’s influence. My book also comes to the conclusion that psychoanalysis is not some kind of physics of the psyche.
In this engrossing new study of Sigmund Freuds life and work, Richard Webster has set out to provide a clear answer to the controversies that have raged for a century around one of the most influential of all modern thinkers. Tracing Freuds essentially religious personality to his childhood, Webster shows how the founder of psychoanalysis allowed his messianic dreams to shape the science he created and to lead him ever deeper into a labyrinth of medical error. Meticulously researched and powerfully argued, Why Freud Was Wrong is destined to become a classic work.
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!
While not really a kid’s book, Mysteries of the Quantum Universe is a fully illustrated graphic novel about a journey through time to visit the historical figures in quantum physics. At each location, the protagonist learns about the quantum world straight from the scientists themselves—fun! The language is a bit complex and so you may have to read it together. It may seem weird to “read” a graphic novel to a child, but I promise it works!
The bestselling French graphic novel about the mind-bending world of quantum physics
Take an incredible journey through the quantum universe with explorer Bob and his dog Rick, as they travel through a world of wonders, talk to Einstein about atoms, hang out with Heisenberg on Heligoland and eat crepes with Max Planck. Along the way, we find out that a dog - much like a cat - can be both dead and alive, the gaze of a mouse can change the universe, and a comic book can actually make quantum physics fun, easy to understand and downright enchanting.
In Denmark, I teach at the Center for Videnskabsstudier.“Videnskabsstudier” is often translated as Science Studies.It thus connotes a rather broad field, which includes philosophical, historical, and sociological studies of science.And the notion of “videnskab”, which is frequently translated as science is interpreted rather broadly, to include, in addition to the natural science, the social sciences, and the humanities, indeed, basically any field one might study at a university. In fact, my own research intersects with and is influenced by research in all these fields.
Shapin makes the audacious claim that there never really was a scientific revolution in Early Modern Europe, despite the fact that “the scientific revolution” has been a central organizing idea in the history of science and the history of Western culture more generally.
His provocative book provides a useful and engaging assessment of the utility of the concept of “the scientific revolution” for making sense of developments in the history of science. He challenges us to think about the place of radical changes in the history of science, and whether the claims scientists make about such changes are merely rhetorical constructions.
Despite Shapin’s arguments, I am inclined to think something very significant happened in the sciences in the 16th and 17th Centuries, something that deserves to be called “revolutionary”. But Shapin’s book will certainly make readers reflect on what they mean by scientific revolution.
"There was no such thing as the Scientific Revolution, and this is a book about it." With this provocative and apparently paradoxical claim, Steven Shapin begins his bold vibrant exploration of early modern science. In this classic of science history, Shapin takes into account the culture - the variety of beliefs, practices, and influences - that in the 1600s shaped the origins of the modern scientific worldview.
My first love was architecture. But while I was working as an architectural drafter in my early twenties, I began taking college courses in philosophy and religious studies. During that time, I also acquired a set of the Great Books of the Western World by Encyclopædia Britannica. I was hooked. I quit my job and became a full-time student of philosophy, religion, and history. Since then, I have seen Pascal’s maxim demonstrated in all my research. Namely, that humanity is a living oxymoron: he is like a “reed,” easily blown over. Nevertheless, the human is also a “thinking reed,” concerned with meaning, purpose, and transcendence.
This book holds a special place in my heart as one of the first books I encountered on the history of science and religion. Lindberg's masterful exploration of the European scientific tradition from 600 B.C. to A.D. 1450 served as my introduction to this captivating field of study.
In many ways, I owe my journey as a historian of science to the insights gleaned from Lindberg's work. While I never had the privilege of meeting him before his passing, his scholarship continues to inspire and shape my understanding of the intricate relationship between science and religion.
For anyone embarking on their own exploration of this fascinating topic, Lindberg's book is an indispensable guide that will leave a lasting impression.
When it was first published in 1992, "The Beginnings of Western Science" was lauded as the first successful attempt to present a unified account of both ancient and medieval science in a single volume. Chronicling the development of scientific ideas, practices, and institutions from pre-Socratic Greek philosophy to late-medieval scholasticism, David C. Lindberg surveyed the most important themes in the history of science, including developments in cosmology, astronomy, mechanics, optics, alchemy, natural history, and medicine. In addition, he offered an illuminating account of the transmission of Greek science to medieval Islam and subsequently to medieval Europe."The Beginnings of Western Science"…
I’ve wanted to be a philosopher since I read Plato’s Phaedo when I was 17, a new immigrant in Canada. Since then, I’ve been fascinated with time, space, and quantum mechanics and involved in the great debates about their mysteries. I saw probability coming into play more and more in curious roles both in the sciences and in practical life. These five books led me on an exciting journey into the history of probability, the meaning of risk, and the use of probability to assess the possibility of harm. I was gripped, entertained, illuminated, and often amazed at what I was discovering.
Can you love a book that you disagree with? I do! I love this extravagant account of how Bayesian Statistics was enmired in controversy and, after 200 years, saved everything from Western Civilization to Captain Dreyfus.
I don’t think that Bayesian statistics is the foundation of all rational thought, but I am happy to celebrate all its wonderful achievements. Every page of this book is lively and personal, engrossing, entertaining, masterful…all of that.
A New York Times Book Review Editor's Choice: A vivid account of the generations-long dispute over Bayes' rule, one of the greatest breakthroughs in the history of applied mathematics and statistics
"An intellectual romp touching on, among other topics, military ingenuity, the origins of modern epidemiology, and the theological foundation of modern mathematics."-Michael Washburn, Boston Globe
"To have crafted a page-turner out of the history of statistics is an impressive feat. If only lectures at university had been this racy."-David Robson, New Scientist
Bayes' rule appears to be a straightforward, one-line theorem: by updating our initial beliefs with objective new…
I enjoy finding science in places where you might not expect it. Science really is everywhere. It's tempting to think of it as its own category of news or its own shelf in the bookstore. But science is a way of thinking about every aspect of the world, including our passions and daily lives. I love finding the spaces where these lines are blurred, and these books are such great examples of finding science in surprising places.
This next book takes a historical approach and explores what Shakespeare would likely have known about science in his lifetime and how that shows up in his works. If the premise sounds contrived, don't worry: the book emphasizes many ongoing debates about connections between Shakespeare and scientists of his era.
I particularly enjoyed learning about the Shakespeare Scholars' Conference and how different it was from the science conferences I knew! Overall, the book taught me much about 16th-century astronomy and Shakespeare. As a student, I would have loved this and always felt I had to choose between science and literature.
William Shakespeare lived at a remarkable time―a period we now recognize as the first phase of the Scientific Revolution. New ideas were transforming Western thought, the medieval was giving way to the modern, and the work of a few key figures hinted at the brave new world to come: the methodical and rational Galileo, the skeptical Montaigne, and―as Falk convincingly argues―Shakespeare, who observed human nature just as intently as the astronomers who studied the night sky. In The Science of Shakespeare, we meet a colorful cast of Renaissance thinkers, including Thomas Digges, who published the first English account of the…
In an ideal world, I would have liked to be a cosmologist and a philosopher. But I became a philosopher with a passion for the history and philosophy of science. This has enabled me to kill two birds with one stone: I learn about the sciences that interest me (physics, evolutionary biology, political philosophy, and sociology), and I explore their philosophical consequences. My podcast, In the Beginning, there was…Philosophy is devoted to such topics.
I appreciate this book because it provides an excellent historical overview of an important aspect of science, i.e., the occurrence of scientific revolutions from the 17th to the 20th century, and it does not include psychoanalysis.
Cohen’s book proposes an interesting "theory" of scientific revolutions which inspired me to develop a philosophical model of scientific revolutions, which I dubbed the "chain-of-reasoning" model.
Cohen was a renowned historian of science. His book is very well written and does not require technical knowledge of particular theories. It is very long but it can be studied selectively.
Only a scholar as rich in learning as I. Bernard Cohen could do justice to a theme so subtle and yet so grand. Spanning five centuries and virtually all of scientific endeavor, Revolution in Science traces the nuances that differentiate both scientific revolutions and human perceptions of them, weaving threads of detail from physics, mathematics, behaviorism, Freud, atomic physics, and even plate tectonics and molecular biology, into the larger fabric of intellectual history.
How did "revolution," a term from the physical sciences, meaning a turning again and implying permanence and recurrence-the cyclical succession of the seasons, the "revolutions" of the…
