Here are 100 books that Total Eclipses fans have personally recommended if you like
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Fascination by the night sky as a young child led to an ambition to become an astronomer. This ambition took me to an honors degree in physics from the University of Sydney in Australia and later to a PhD in astronomy. Afterward, I joined Sydney Observatory, initially as one of four astronomers, and later, after the Observatory became part of a large museum, as Curator of Astronomy. During my 30 years working full-time at Sydney Observatory, I became intrigued by the history of astronomy. A manifestation of that interest was the 2011 book Transit of Venus: 1631 to the Present and, more recently, my book, listed below.
This satirical novel, with a total eclipse of the Sun at its heart, was one of the most loved books of my childhood. It tells the story of Hank Morgan, the foreman of an American factory in the late 1800s, who receives a blow on the head from one of the employees. He wakes up in Camelot at the time of King Arthur. As he does not fit in, he is brought before the king and sentenced to be burned at the stake.
Fortunately, just as the execution is about to begin, a total solar eclipse occurs, and Morgan persuades the king and the assembled crowd that he is responsible. This leads not only to his release but also to his appointment as the second most powerful person in the kingdom.
In this classic satiric novel, published in 1889, Hank Morgan, a supervisor in a Connecticut gun factory, falls unconscious after being whacked on the head. When he wakes up he finds himself in Britain in 528 — where he is immediately captured, hauled back to Camelot to be exhibited before the knights of King Arthur's Round Table, and sentenced to death. Things are not looking good. But Hank is a quick-witted and enterprising fellow, and in the process of saving his life he turns himself into a celebrity of the highest magnitude. His Yankee ingenuity and knowledge of the world…
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…
Fascination by the night sky as a young child led to an ambition to become an astronomer. This ambition took me to an honors degree in physics from the University of Sydney in Australia and later to a PhD in astronomy. Afterward, I joined Sydney Observatory, initially as one of four astronomers, and later, after the Observatory became part of a large museum, as Curator of Astronomy. During my 30 years working full-time at Sydney Observatory, I became intrigued by the history of astronomy. A manifestation of that interest was the 2011 book Transit of Venus: 1631 to the Present and, more recently, my book, listed below.
I like how easily understandable this book is with its short sections and informative diagrams. Historical eclipses are described; these include the famous story of how, in 1504, Christopher Columbus supposedly used a total eclipse of the Moon to frighten Jamaican natives into supplying him and his crew with food.
My favorite section, though, is the book’s appendix, which gives simple explanations of important but complex phenomena, such as the precession of the equinoxes, the different types of months, and how often eclipses repeat. The best part is that the calculations in the appendix can be followed using just a basic calculator.
In August 1999, for the first time in more than 70 years, the northern hemisphere will experience a total eclipse of the sun. This book is an engaging, accessible and authoritative account of this phenomenon and how it has affected humanity from the beginning of time. Author is Adelaide-based director of Spaceguard Australia.
Fascination by the night sky as a young child led to an ambition to become an astronomer. This ambition took me to an honors degree in physics from the University of Sydney in Australia and later to a PhD in astronomy. Afterward, I joined Sydney Observatory, initially as one of four astronomers, and later, after the Observatory became part of a large museum, as Curator of Astronomy. During my 30 years working full-time at Sydney Observatory, I became intrigued by the history of astronomy. A manifestation of that interest was the 2011 book Transit of Venus: 1631 to the Present and, more recently, my book, listed below.
I love that this highly scholarly book on eclipses takes a completely different approach than other books on the subject. The book looks at expeditions to study total eclipses of the Sun organised by the major British scientific groups.
However, instead of focusing on their instruments and what observations they made, the author considers how the expeditions were planned and how the infrastructure of the British Empire was essential to the expeditions.
Relevant infrastructure included steamships and railroads that enabled astronomers to reach their destinations and telegraph lines to establish the correct time and relay their results.
Astronomy was a popular and important part of Victorian science, and British astronomers carried telescopes and spectroscopes to remote areas of India, the Great Plains of North America, and islands in the Caribbean and Pacific to watch the sun eclipsed by the moon. Examining the rich interplay between science, culture, and British imperial society in the late nineteenth century, this book shows how the organization and conduct of scientific fieldwork was structured by contemporary politics and culture, and how rapid and profound changes in the organization of science, advances in photography, and new printing technology remade the character of scientific…
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…
Fascination by the night sky as a young child led to an ambition to become an astronomer. This ambition took me to an honors degree in physics from the University of Sydney in Australia and later to a PhD in astronomy. Afterward, I joined Sydney Observatory, initially as one of four astronomers, and later, after the Observatory became part of a large museum, as Curator of Astronomy. During my 30 years working full-time at Sydney Observatory, I became intrigued by the history of astronomy. A manifestation of that interest was the 2011 book Transit of Venus: 1631 to the Present and, more recently, my book, listed below.
I like this book, since it gives the basic science of the Sun and its atmosphere. Although written for the interested layman, it can be a little technical, and there have been many developments since the book was published in 1984. Still, it is readable, and the underlying physics of the Sun has not changed since that time.
My favorite chapter, as it relates to eclipses, is the one on the Sun’s outer atmosphere, the corona, which only becomes visible during the few minutes of totality. The author explains that almost all of the corona's light is scattered light, by electrons close to the Sun and dust further out. He also discusses the corona’s surprisingly high temperature of a million or so degrees Celsius.
I am totally fascinated by the quest of how Nature does it. In particular, I love the fact that humans managed to enters the strange world of atoms and photons by just using their brute intellectual force and imagination. This world obeys precise rules, but very different ones from those we get used to since childhood. For example, the laws that govern the microscopic world allow for indeterminacy and randomness. Moreover, some random events may manifest themselves at several locations at once, leading to the phenomenon of quantum non-locality. I am very fortunate that I could spend all my professional time on such fascinating conceptual questions, combined with highly timely new technologies.
This is a wonderful and highly convincing analysis of quantum non-locality, written by one of the top expert philosophers of science. Personally, I learned a lot from this book, which clearly influenced me and helped me to become an expert in the field. The book goes deep into explaining why we live in a world full of non-local correlations and what that means. It analyses in depth the tension between quantum non-locality and relativity. Moreover, it contains several original ideas, like, e.g., how many bits of communication are needed to simulate quantum non-locality. It is still today a very timely book.
Modern physics was born from two great revolutions: relativity and quantum theory. Relativity imposed a locality constraint on physical theories: since nothing can go faster than light, very distant events cannot influence one another. Only in the last few decades has it become clear that quantum theory violates this constraint. The work of J. S. Bell has demonstrated that no local theory can return the predictions of quantum theory. Thus it would seem that the central pillars of modern physics are contradictory. Quantum Non-Locality and Relativity examines the nature and possible resolution of this conflict. Beginning with accurate but non-technical…
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.
I love this book! Of course, it teaches the mathematics of the Lagrangian and Hamiltonian approaches to classical mechanics. But its real uniqueness lies in how the author explains the basic concepts of the subject with a constant emphasis on intuitive physics. It was only after reading Lanczos that I finally understood what variational calculations were really about. Ditto for virtual work, non-holonomic constraints, Liouville’s theorem and Hamilton-Jacobi theory. I barely noticed that I was learning about the history and philosophy of classical mechanics at the same time.
Analytical mechanics is, of course, a topic of perennial interest and usefulness in physics and engineering, a discipline that boasts not only many practical applications, but much inherent mathematical beauty. Unlike many standard textbooks on advanced mechanics, however, this present text eschews a primarily technical and formalistic treatment in favor of a fundamental, historical, philosophical approach. As the author remarks, there is a tremendous treasure of philosophical meaning" behind the great theories of Euler and Lagrange, Hamilton, Jacobi, and other mathematical thinkers. Well-written, authoritative, and scholarly, this classic treatise begins with an introduction to the variational principles of mechanics including…
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 am a philosopher of science who has an obsession with time. People think this interest is a case of patronymic destiny, that it’s due to my last name being Callender. But the origins of “Callender” have nothing to do with time. Instead, I’m fascinated by time because it is one of the last fundamental mysteries, right up there with consciousness. Like consciousness, time is connected to our place in the universe (our sense of freedom, identity, meaning). Yet we don’t really understand it because there remains a gulf between our experience of time and the science of time. Saint Augustine really put his finger on the problem in the fifth century when he pointed out that it is both the most familiar and unfamiliar thing.
I’ve never met Nahin but I recognize in him a kindred spirit of someone similarly obsessed with time. If you want to know about time travel, here it is in all its glory. The “tech notes” at the end show that this is a labor of love. Not only will you encounter some of the most fascinating physics (in the works of Godel, Novikov, Thorne, Tipler, and dozens more), but you’ll also learn about early science fiction, the threat of fatalism, the history of the idea that time is the fourth dimension, and more.
This book explores the idea of time travel from the first account in English literature to the latest theories of physicists such as Kip Thorne and Igor Novikov. This very readable work covers a variety of topics including: the history of time travel in fiction; the fundamental scientific concepts of time, spacetime, and the fourth dimension; the speculations of Einstein, Richard Feynman, Kurt Goedel, and others; time travel paradoxes, and much more.
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…
I am a professor of philosophy at New York University, but my interests have always fallen at the intersection of physics and philosophy. Unable to commit to just one side or the other, I got a joint degree in Physics and Philosophy from Yale and a PhD in History and Philosophy of Science at the University of Pittsburgh. My fascination with Bell’s Theorem began when I read an article in Scientific American in 1979, and I have been trying to get to the bottom of things ever since. My most recent large project is a Founder and Director of the John Bell Institute for the Foundations of Physics.
Beller did a lot of the historical work that Becker relies on, delving deeply into the personal interaction between Einstein, Bohr, Heisenberg, Schrödinger, and the other founders of quantum theory. The presentation is more scholarly than Becker’s but is a goldmine for anyone who wants to understand the fine details of how quantum theory emerged from that set of distinctive personalities.
This work seeks to show that science is rooted not just in conversation but in disagreement, doubt and uncertainty. Mara Beller argues that it is precisely this culture of dialogue and controversy within the scientific community that fuels creativity. Beller draws her argument from her reading of the history of the quantum revolution, especially the development of the Copenhagen interpretation. One of several competing approaches, this version succeeded largely due to the rhetorical skills of Niels Bohr and his colleagues. Using archival research, Beller shows how Bohr and others marketed their views, misrepresenting and dismissing their opponents as "unreasonable" and…
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…
My undergraduate physics textbook asked, “What is an electric field? Is it something real, or is it merely a name for a factor in an equation which has to be multiplied by something else to give the numerical value of the force we measure in an experiment?” Here, I thought, is a good question! But the textbook said that since electromagnetic theory “works, it doesn’t make any difference" what an electric field is! Then it said, "That is not a frivolous answer, but a serious one.” I felt ashamed. But my physics teacher helpfully suggested that I “speak to the philosophers.” I am very pleased that I decided to become one!
When a world-class philosopher of physics is also a spectacularly gifted writer, you have the makings of an extraordinary book. This book offers a comprehensive introduction to various interpretations of quantum mechanics, while Maudlin's companion volume on the philosophy of space and time is equally highly recommended. Maudlin is a (very) opinionated guide, which makes these books even more valuable (and enjoyable to read). I especially enjoy Maudlin’s refusal to tolerate any of the nonsense that one often finds in quantum mechanics textbooks that depict the “Copenhagen interpretation” of quantum mechanics as indeed a genuine interpretation of quantum mechanics. Rather, as Maudlin forthrightly says, the “Copenhagen interpretation” amounts to a failure to offer any interpretation at all of quantum mechanics. Instead, it treats quantum mechanics merely as a device for predicting the chances of our making various observations.
A sophisticated and original introduction to the philosophy of quantum mechanics from one of the world's leading philosophers of physics
In this book, Tim Maudlin, one of the world's leading philosophers of physics, offers a sophisticated, original introduction to the philosophy of quantum mechanics. The briefest, clearest, and most refined account of his influential approach to the subject, the book will be invaluable to all students of philosophy and physics.
Quantum mechanics holds a unique place in the history of physics. It has produced the most accurate predictions of any scientific theory, but, more astonishing, there has never been any…
