Here are 100 books that Fabulous Science fans have personally recommended if you like
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The discovery of the structure of DNA, the genetic material was one of the biggest milestones in science–but few people realise that a crucial unsung hero in this story was the humble wool fibre. But the Covid pandemic has changed all that and as a result we’ve all become acutely away of both the impact of science on our lives and our need to be more informed about it. Having long ago hung up my white coat and swapped the lab for the library to be a historian of science, I think we need a more honest, authentic understanding of scientific progress rather than the over-simplified accounts so often found in textbooks.
When, in the course of my research for my book, I first came across a newspaper article from 1939 reporting on the work of physicist Florence Bell with the stunned headline "Woman Scientist Explains," I think it took me about 5 minutes to recover from laughing. It’s a pity that the local press were more interested in the fact that Bell was a woman rather than her actual science, because only a year earlier she had shown for the first time how X-rays could reveal the regular, ordered structure of DNA. And as an undergraduate of Girton College, Cambridge, Bell’s talents as a physicist should have come as no surprise. For as historian Patricia Fara shows, Girton and the other all-female college, Newnham, were both intellectual crucibles from which emerged a generation of distinguished scientists such as physicist Hertha Ayrton, campaigning chemists Ida Smedley and Martha Whiteley, to name but…
2018 marked a double centenary: peace was declared in war-wracked Europe, and women won the vote after decades of struggle. A Lab of One's Own commemorates both anniversaries by revealing the untold lives of female scientists, doctors, and engineers who undertook endeavours normally reserved for men. It tells fascinating and extraordinary stories featuring initiative, determination, and isolation, set against a backdrop of war, prejudice, and disease. Patricia Fara investigates the enterprising careers of these pioneering women and their impact on science, medicine, and the First World War.
Suffrage campaigners aligned themselves with scientific and technological progress. Defying protests about their…
It is April 1st, 2038. Day 60 of China's blockade of the rebel island of Taiwan.
The US government has agreed to provide Taiwan with a weapons system so advanced that it can disrupt the balance of power in the region. But what pilot would be crazy enough to run…
The discovery of the structure of DNA, the genetic material was one of the biggest milestones in science–but few people realise that a crucial unsung hero in this story was the humble wool fibre. But the Covid pandemic has changed all that and as a result we’ve all become acutely away of both the impact of science on our lives and our need to be more informed about it. Having long ago hung up my white coat and swapped the lab for the library to be a historian of science, I think we need a more honest, authentic understanding of scientific progress rather than the over-simplified accounts so often found in textbooks.
As the Western Roman Empire crumbled in the early 5th century, science and learning were extinguished for a thousand years…or, perhaps not. As Ehsan Masood shows in this highly enjoyable book to accompany a BBC series, Islamic scholars did much more than simply blow on the cinders of ancient Greek learning to keep them burning from the 8th to the 16th century. Names such as ibn-Sina, Jabir ibn-Hayyan, and Al-Khwarizmi may not be quite so well known to Western European ears as Copernicus, Galileo, and Descartes, but Masood shows that they were actively involved in medicine, chemistry and mathematics during this time. So go with Masood on a journey through the Umayyad and Abbasid dynasties, and beyond to be persuaded that the so-called ‘Dark Ages’ were perhaps not quite so dark as we’ve been led to believe.
Long before the European Enlightenment, scholars and researchers working from Samarkand in modern-day Uzbekistan to Cordoba in Spain advanced our knowledge of astronomy, chemistry, engineering, mathematics, medicine and philosophy.
From Musa al-Khwarizmi who developed algebra in 9th century Baghdad to al-Jazari, a 13th-century Turkish engineer whose achievements include the crank, the camshaft and the reciprocating piston.
Ehsan Masood tells the amazing story of one of history's most misunderstood yet rich and fertile periods in science, via the scholars, research, and science of the Islamic empires of the middle ages.
I have been working on science and religion for 15 years now. While there are a number of books on Darwinism and religion (too many to count), the number on Darwin himself and his own (loss of) religion is far smaller. So, I wrote a short "spiritual biography" of the great man. Reading through the Darwin archives, it emerged that there was so much more to the story than “man finds evolution but loses God,” and the more I read around this topic and spoke to the leading academic scholars on the subject, the more I realized that that was the case for science and religion overall.
The popular view is that “mediaeval science” is a contradiction in terms, but this is… well, nonsense, really. The mediaeval world did not have “scientists” (the term was only invented in the 1830s), but it did have “natural philosophers” who studied the world about them with great care and interest.
True, they worked within a totally different framework from later scientists, and that made the kind of leaps forward that were made in the 17th century impossible. But nevertheless, they thought logically, examined carefully, reasoned well, and even sometimes experimented successfully.
James Hannam’s book is a great introduction to a world that seems very alien to us but is closer than we might think.
This is a powerful and a thrilling narrative history revealing the roots of modern science in the medieval world. The adjective 'medieval' has become a synonym for brutality and uncivilized behavior. Yet without the work of medieval scholars there could have been no Galileo, no Newton and no Scientific Revolution. In "God's Philosophers", James Hannam debunks many of the myths about the Middle Ages, showing that medieval people did not think the earth is flat, nor did Columbus 'prove' that it is a sphere; the Inquisition burnt nobody for their science nor was Copernicus afraid of persecution; no Pope tried…
A Duke with rigid opinions, a Lady whose beliefs conflict with his, a long disputed parcel of land, a conniving neighbour, a desperate collaboration, a failure of trust, a love found despite it all.
Alexander Cavendish, Duke of Ravensworth, returned from war to find that his father and brother had…
The discovery of the structure of DNA, the genetic material was one of the biggest milestones in science–but few people realise that a crucial unsung hero in this story was the humble wool fibre. But the Covid pandemic has changed all that and as a result we’ve all become acutely away of both the impact of science on our lives and our need to be more informed about it. Having long ago hung up my white coat and swapped the lab for the library to be a historian of science, I think we need a more honest, authentic understanding of scientific progress rather than the over-simplified accounts so often found in textbooks.
The discovery of insulin in early 1922 was a medical milestone that has since saved countless lives–my own included. Until this moment, a diagnosis of Type 1 Diabetes was a certain death sentence. But as diabetes clinician and historian of medicine, Chris Feudtner points out, the success of insulin has distorted historical accounts of diabetes by marginalising the experience of the patient in favour of narratives that focus on the development of medical technology to treat them. And Feudtner’s diagnosis is confined not just to diabetes but to the history of medicine in general. Following a personal epiphany that patients have an existence beyond X-rays and blood tests, Feudtner set out to address this problem by writing a history of diabetes as told from the perspective of patients. He does so magnificently and offers important insights about our relationship with technology that extend well beyond the treatment of diabetes.
One of medicine's most remarkable therapeutic triumphs was the discovery of insulin in 1921. The drug produced astonishing results, rescuing children and adults from the deadly grip of diabetes. But as Chris Feudtner demonstrates, the subsequent transformation of the disease from a fatal condition into a chronic illness is a story of success tinged with irony, a revealing saga that illuminates the complex human consequences of medical intervention.
Bittersweet chronicles this history of diabetes through the compelling perspectives of people who lived with this disease. Drawing on a remarkable body of letters exchanged between patients or their parents and Dr.…
I am an evolutionary ecologist with a lifelong fascination with mating behavior in animals, particularly fishes. The core of my doctoral thesis was trying to understand why some males mate with females of a different species, a behavior that I thought could not be adaptive. This was the starting point of my work on male mate choice, but also mate choice more generally. Originally from Germany, I have lived and worked in the US for a long time. Most of my work is on neotropical fishes so moving to America made sense.
This fascinating book reflects on the development of Darwin’s thinking as he was developing his theory of Sexual Selection. Superbly detailed and well crafted this book provides astonishing insights into how Darwin was thinking and how he fleshed out sexual selection theory. The book is not just important for understanding Darwin and one of his most famous ideas, it places his thinking in the context of his time. It is a long book, but worth the read.
Darwin's concept of natural selection has been exhaustively studied, but his secondary evolutionary principle of sexual selection remains largely unexplored and misunderstood. Yet sexual selection was of great strategic importance to Darwin because it explained things that natural selection could not and offered a naturalistic, as opposed to divine, account of beauty and its perception. Only now, with Darwin and the Making of Sexual Selection, do we have a comprehensive and meticulously researched account of Darwin's path to its formulation one that shows the man, rather than the myth, and examines both the social and intellectual roots of Darwin's theory.…
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.
This book is a delightful read, full of interesting evolutionary details and a rigorous defence of Darwinism.
Steve Jones was a professor of genetics at UCL, London. His book is an updated version of Darwin’s The Origin of Species, faithfully following Darwin’s chapter plan. However, it adds to the discussion what is lacking in Darwin’s book, namely genetics. For instance, it discusses AIDS as an example of descent with modification and the evolution of whales and wolves.
There is one exception to the faithful retracing of Darwin’s topics. After Chapter XIII on Mutual Affinities, Jones inserts an Interlude in which he shows that Darwin’s argument is applicable to humans. He argues that evolution is still ongoing but at a slower pace.
In his new book, , Steve Jones takes on the challenge of going back to the book of the millennium, Charles Darwin's The Origin of Species. Before The Origin, biology was a set of unconnected facts. Darwin made it into a science, linked by the theory of evolution, the grammar of the living world.It reveals ties between cancer and the genetics of fish, between brewing and inherited disease, between the sex lives of crocodiles and the politics of Brazil. Darwin used the biology of the nineteenth century to prove his case. Now, that science has been revolutionized and his case…
The Duke's Christmas Redemption
by
Arietta Richmond,
A Duke who has rejected love, a Lady who dreams of a love match, an arranged marriage, a house full of secrets, a most unneighborly neighbor, a plot to destroy reputations, an unexpected love that redeems it all.
Lady Charlotte Wyndham, given in an arranged marriage to a man she…
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’m a professor of conflict resolution at George Mason University and have been working for years trying to understand the causes of and methods of resolving religious conflicts. I studied the Middle Ages thinking that I’d find a story about Catholic fundamentalists persecuting innovative thinkers like Copernicus and Galileo. Instead, I found a story about religious leaders such as Pope Innocent III, Peter Abelard, and Thomas Aquinas borrowing ideas from the Greeks, Muslims, and Jews, revolutionizing Catholic thought, and opening the door to modern ideas about the power of reason and the need for compassion. What a trip!
Edward Grant’s book begins, as mine does, with the medieval rediscovery of Aristotle’s works, but he focuses more intensively than I do on the impact of the new learning on scientific education and discovery. Writing clearly and gracefully, Grant demonstrates that a real scientific revolution began three hundred years before the “Scientific Revolution” of the sixteenth century. Along the way, he has some fascinating things to say about the curriculum of medieval universities and life among the first generation of European scientists. A valuable and enjoyable read.
Contrary to prevailing opinion, the roots of modern science were planted in the ancient and medieval worlds long before the Scientific Revolution of the seventeenth century. Indeed, that revolution would have been inconceivable without the cumulative antecedent efforts of three great civilisations: Greek, Islamic, and Latin. With the scientific riches it derived by translation from Greco-Islamic sources in the twelfth and thirteenth centuries, the Christian Latin civilisation of Western Europe began the last leg of the intellectual journey that culminated in a scientific revolution that transformed the world. The factors that produced this unique achievement are found in the way…
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…
This book follows the journey of a writer in search of wisdom as he narrates encounters with 12 distinguished American men over 80, including Paul Volcker, the former head of the Federal Reserve, and Denton Cooley, the world’s most famous heart surgeon.
In these and other intimate conversations, the book…
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.
