Here are 78 books that The Book Nobody Read fans have personally recommended if you like
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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.
The Victorian mansion, Evenmere, is the mechanism that runs the universe.
The lamps must be lit, or the stars die. The clocks must be wound, or Time ceases. The Balance between Order and Chaos must be preserved, or Existence crumbles.
Appointed the Steward of Evenmere, Carter Anderson must learn the…
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.
Scientific realists generally assume that the growth of scientific knowledge is continuous and cumulative, with no significant setbacks. Discoveries in science generally add on to our current understanding of the world. Scientific realists generally regard scientific revolutions or paradigm changes as a threat to the rationality of science as such changes seem to imply that scientists have had a fundamentally flawed understanding of the world.
Psillos presents one of the most comprehensive and strongest cases for realism. Anyone who is serious about defending a view of the development of science that involves periodic revolutionary changes of theory, as I do, has to take Psillos’ arguments very seriously.
Scientific realism is the optimistic view that modern science is on the right track: that the world really is the way our best scientific theories describe it . In his book, Stathis Psillos gives us a detailed and comprehensive study which restores the intuitive plausibility of scientific realism. We see that throughout the twentieth century, scientific realism has been challenged by philosophical positions from all angles: from reductive empiricism, to instrumentalism and to modern sceptical empiricism. Scientific Realism explains that the history of science does not undermine the arguments for scientific realism, but instead makes it reasonable to accept scientific…
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.
This is a collection of essays by Kuhn, written later in his life, as he tried to clarify and develop the view he initially presented in The Structure of Scientific Revolutions.
Kuhn reflects on developments in the sociology of science that were influenced by his work, as the Strong Programme sociologists of science identified as Kuhnians and relativists. Kuhn tries to clarify what he meant by “paradigm change”, motivated by a concern to address his critics and to distance his own view from certain types of relativist views.
The autobiographical interview is very engaging, as Kuhn takes this opportunity to reflect on the impact of his book, as well as on the effects the book has had on his life and career. I think much of what Kuhn had to say in these later papers provides important insight into understanding science, especially his remarks on scientific specialization.
Thomas Kuhn will undoubtedly be remembered primarily for The Structure of Scientific Revolutions, a book that introduced one of the most influential conceptions of scientific progress to emerge during the twentieth century. The Road since Structure, assembled with Kuhn's input before his death in 1996, follows the development of his thought through the later years of his life: collected here are several essays extending and rethinking the perspectives of Structure as well as an extensive and remarkable autobiographical interview in which Kuhn discusses the course of his life and philosophy.
The Guardian of the Palace is the first novel in a modern fantasy series set in a New York City where magic is real—but hidden, suppressed, and dangerous when exposed.
When an ancient magic begins to leak into the world, a small group of unlikely allies is forced to act…
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.
Zuckerman provides a comprehensive study of the American scientists who won Nobel prizes between 1907 and 1972.
The book provides a window into the personalities of the people doing Nobel prize-winning research, as well as the sort of environments in which they were socialized and educated. Nobel laureates have tended to study and work with other Laureates or future Laureates. She also discusses the impact that winning a Nobel prize has on scientists, and the effects of the prize are not wholly positive.
The book also demonstrates the potential power of sociological analyses. Zuckerman creatively combines interview data with quantitative analyses. I think Zuckerman’s books are a fantastic example of how to conduct empirical research in sociology and the social sciences more generally.
Scientific Elite is about Nobel prize winners and the well-defined stratification system in twentieth-century science. It tracks the careers of all American laureates who won prizes from 1907 until 1972, examining the complex interplay of merit and privilege at each stage of their scientific lives and the creation of the ultra-elite in science.
The study draws on biographical and bibliographical data on laureates who did their prize-winning research in the United States, and on detailed interviews with forty-one of the fifty-six laureates living in the United States at the time the study was done. Zuckerman finds laureates being successively advantaged…
I have been pursuing nuclear and particle physics as a career for nearly half a century, mostly in Western countries and Japan. As a professor of physics and engineering physics, I always strive to bring conceptual clarity to what I teach for application-oriented and abstract physics, even when I cannot bring the same level of connection to physical reality in my research. I am deeply concerned that physicists have gone astray in their mathematical quest to develop a glamorous picture of the building blocks of matter and the basic interactions among them. This book is an outgrowth of my search to understand the limits of human knowledge to unravel nature’s mysteries.
Professor Rothman, a historian of Science, presents the little-known fact that Kepler’s search for harmony in astronomy has deep connections to the search for harmony in the European community of his time. In less than 400 pages, Professor Rothman takes us on an educational tour of Kepler’s evolution of his ideas of cosmic harmony and his professing those ideas for harmony in an inclusive, diverse society.
There are many untold stories and circumstances that drive a person to pursue a path of discovery or innovation, making them immortal. Kepler was the main player in laying the firm foundation of the heliocentric solar system. It is fascinating to learn that the world politics of his day were contributing factors in this regard.
A committed Lutheran excommunicated from his own church, a friend to Catholics and Calvinists alike, a layman who called himself a "priest of God," a Copernican in a world where Ptolemy still reigned, a man who argued at the same time for the superiority of one truth and the need for many truths to coexist German astronomer Johannes Kepler was, to say the least, a complicated figure. With The Pursuit of Harmony, Aviva Rothman offers a new view of him and his achievements, one that presents them as a story of Kepler's attempts to bring different, even opposing ideas and…
In school, I wasn’t fond of physics. Most of my education focused on the history of human civilization and culture. I rediscovered physics partly thanks to the books mentioned here—and the strangeness of quanta. My studies, exposure to Tao and Zen philosophies, and exploration of physics have given me a unique perspective and awareness: humanity is merely a tiny particle in the universe, neither central nor the king of all creation. Nothing new, of course—Buddha, Heraclitus, and Shakespeare all knew it well.
What impressed me the most was the idea that our reality could be a mathematical structure. This book made me appreciate physics—which I hated in school—and view reality from a different perspective. It inspired my imagination, and although it's a nonfiction, popular science book, it was a great read that sometimes left me with bated breath. In a strange way, the ideas reminded me of Zen philosophy and Taoist qi energy, as if astrophysics were proving these ancient intuitions, which I like to call 'forgotten knowledge.'
Nature, said Galileo, is 'a book written in the language of mathematics'. But why should this be? How can mathematics be at the heart of our universe?
The great Hungarian physicist and Nobel laureate Eugene Wigner stressed that this 'unreasonable effectiveness' of mathematics at describing the world was a mystery demanding explanation. Here, Max Tegmark, one of the most original cosmologists at work today, takes us on an astonishing journey to solve that mystery.
Part-history of the cosmos, part-intellectual adventure, Our Mathematical Universe travels from the Big Bang to the distant future via parallel worlds, across every possible scale -…
Aury and Scott travel to the Finger Lakes in New York’s wine country to get to the bottom of the mysterious happenings at the Songscape Winery. Disturbed furniture and curious noises are one thing, but when a customer winds up dead, it’s time to dig into the details and see…
I am a professor of humanities at Johns Hopkins and have spent my career thinking, teaching, and writing about the relations between literature, philosophy, and science. Many years ago I started out thinking I would be a scientist, but then got pulled into literature and philosophy. Still, that original passion never left me. As I studied and read the great authors and thinkers from Classical Antiquity through the Middle Ages to the modern era, the big, fundamental questions of our place in the universe and the ultimate nature of reality seemed as pertinent to poets and philosophers as it is to physicists and cosmologists.
In this philosophical page-turner, Jim Holt seems to grab every major scientist and thinker he can find by the collar to make them face down arguably the most fundamental question of all: why there is something instead of nothing.
Whether talking to string theorists or experts on German existentialism, Holt keeps the tone as light as the questions are profound. In an added treat, the reader gets a real sense of the people behind some of the most creative minds on the planet.
Tackling the "darkest question in all of philosophy" with "raffish erudition" (Dwight Garner, New York Times), author Jim Holt explores the greatest metaphysical mystery of all: why is there something rather than nothing? This runaway bestseller, which has captured the imagination of critics and the public alike, traces our latest efforts to grasp the origins of the universe. Holt adopts the role of cosmological detective, traveling the globe to interview a host of celebrated scientists, philosophers, and writers, "testing the contentions of one against the theories of the other" (Jeremy Bernstein, Wall Street Journal). As he interrogates his list of…
With a PhD in astrophysics, cosmology is my day job. My research focuses upon the dark-side, the dark matter and energy that have shaped the evolution of the universe. My scientific journey began long ago with “How and Why Wonder Books”, from dinosaurs and evolution to astronomy and space exploration. I have always devoured tales about the fundamental universe, not only the immensity of the cosmos around us, but also the lives of the tiny bits-and-pieces from which matter is made. I still read a lot of popular science, especially on the history of life on Earth, and the future impact of Artificial Intelligence.
What does tomorrow hold for the universe? Through this book, the authors step into the far future of the cosmos, starting from our universe today, lit with stars and galaxies, to a hundred trillion years hence when the last star has died. But at this point, the story has only just begun, and the authors continue to the distant time when matter will eventually melt, and black holes will evaporate into the background. Whilst some of the physics is speculative this is an exciting ride which reminds us, like everything, the universe is slowly and steadily winding down.
THE FIVE AGES OF THE UNIVERSE is a riveting biography of the universe which describes for the first time five distinct eras that Adams and Laughlin themselves defined as a result of their own research. From the first gasp of inflation that caused the Big Bang, through the birth of stars, to the fading of all light, THE FIVE AGES OF THE UNIVERSE describes the death of our own sun, tremendous fiery supernovae explosions, dramatic collisions of galaxies, proton decay, the evaporation of black holes and the possibility of communications when there are no planets or stars or even black…
My passionate scientific interest in cosmology began several decades ago as a Stanford student while moon-lighting as a cloud chamber photo scanner at the Stanford Linear Accelerator Center (SLAC). An initial interest in particle physics merged with an interest in cosmology because the Big Bang theory is about both. Developing a unique cosmology model and collaborating with other cosmologists around the world was a natural extension. Following numerous peer-reviewed scientific publications, our book summarizing them was one, as well. Taking a passionate interest in anything and sharing it with others is an important first step!
I love Stephan Hawking’s A Brief History of Time because it was the first book that inspired me to become a cosmologist. It is a terrific overview of the science behind the modern belief in the Big Bang and what has followed.
It is told with Hawking’s wry sense of humor and unique ability to make complex concepts understandable to the layperson and budding scientist, which I was at the time. It is a fantastic start for my readers of all persuasions.
Was there a beginning of time? Could time run backwards? Is the universe infinite or does it have boundaries? These are just some of the questions considered in an internationally acclaimed masterpiece by one of the world's greatest thinkers. It begins by reviewing the great theories of the cosmos from Newton to Einstein, before delving into the secrets which still lie at the heart of space and time, from the Big Bang to black holes, via spiral galaxies and strong theory. To this day A Brief History of Time remains a staple of the scientific canon, and its succinct and…
Magical realism meets the magic of Christmas in this mix of Jewish, New Testament, and Santa stories–all reenacted in an urban psychiatric hospital!
On locked ward 5C4, Josh, a patient with many similarities to Jesus, is hospitalized concurrently with Nick, a patient with many similarities to Santa. The two argue…
As a child in New England, I used to look up to the trees around my home and the stars beyond. The trees caught my gaze by day, their branches twisting into the blue sky. I imagined myself turning upside-down, so the branches actually plunged into blue water, like the tree-islands of my novel A Door into Ocean. By night I imagined falling off the Earth into the dark well of stars. My vision of stars ultimately morphed into the multicolored microbes of Brain Plague. The books on my list expanded my view of trees and stars into many dimensions. I hope you enjoy them as much as I do.
This Harvard-trained cosmologist takes us on a journey into the universe, from colliding black holes to neutrons and protons “faking it” as elementary particles.
If you ever wondered why the universe has more matter than antimatter, and what is dark matter made of, this book is for you. And physics is about more than theories; it’s about people doing physics. Black lives matter, and Black lives are the stuff of stars.
Chanda Prescod-Weinstein shares her exploration of a universe that is “bigger than the bad things that are happening to us.” Along the way, we gain new clues to the fate of our galaxies full of stars.
From a star theoretical physicist, a journey into the world of particle physics and the cosmos -- and a call for a more just practice of science.
In The Disordered Cosmos, Dr. Chanda Prescod-Weinstein shares her love for physics, from the Standard Model of Particle Physics and what lies beyond it, to the physics of melanin in skin, to the latest theories of dark matter -- all with a new spin informed by history, politics, and the wisdom of Star Trek.
One of the leading physicists of her generation, Dr. Chanda Prescod-Weinstein is also one of fewer than one hundred…
