Here are 100 books that The Copernican Revolution fans have personally recommended if you like
The Copernican Revolution.
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I am Professor Emeritus of History at the University of Kansas, where I taught the History of Chemistry, History of Science in the United States, Early-Modern Scientific Revolution, and Great Lives in Science, among other courses. I also have published on late 19th-century physical science (with emphasis on spectroscopy and the work of Sir William Crookes) and the development of 20th-century electronic devices to aid chemical analyses (e.g., the development of handheld x-ray fluorescence spectrometers to measure lead concentration in paint). In addition to my interests in the history of science, I serve as the Technical Editor for an international environmental services company.
This is a magnificent history of astronomy and cosmology in all cultures (not just Western).
It is illustrated beautifully and presents technical information in a manner understandable to people unfamiliar with details of astronomy. I liked this because it discussed authoritatively virtually every aspect of its subject matter within the histories of multiple cultures.
For millennia humans have studied the skies to help them grow crops, navigate the seas, and earn favor from their gods. We still look to the stars today for answers to fundamental questions: How did the universe begin? Will it end, and if so, how? What is our place within it? John North has been examining such questions for decades. In "Cosmos", he offers a sweeping historical survey of the two sciences that help define our place in the universe: astronomy and cosmology.Organizing his history chronologically, North begins by examining Paleolithic cave drawings that clearly chart the phases of the…
The rediscovery of Aristotle's works by Christians in the libraries of Muslim Spain set off an intellectual and moral revolution in the Roman Catholic Church that, in many ways, launched the modern era. Rubenstein's book tells how a remarkable series of characters, including Peter Abelard, Thomas Aquinas, and William of…
I am Professor Emeritus of History at the University of Kansas, where I taught the History of Chemistry, History of Science in the United States, Early-Modern Scientific Revolution, and Great Lives in Science, among other courses. I also have published on late 19th-century physical science (with emphasis on spectroscopy and the work of Sir William Crookes) and the development of 20th-century electronic devices to aid chemical analyses (e.g., the development of handheld x-ray fluorescence spectrometers to measure lead concentration in paint). In addition to my interests in the history of science, I serve as the Technical Editor for an international environmental services company.
By far, the best biography of Galileo, portraying not only his life and science, but the essential influence of his literary experiences and aspirations on his science and associated writings.
My regard for this book extends also to Heilbron’s exposure not only of Galileo’s innovative contributions to astronomy (via telescopic observations) and physics (via his law of falling bodies and inertial theories), but of his fallibilities—personal and scientific.
Just over four hundred years ago, in 1610, Galileo published the Siderius nuncius, or Starry Messenger, a 'hurried little masterpiece' in John Heilbron's words. Presenting to the world his remarkable observations using the recently invented telescope - of the craters of the moon, and the satellites of Jupiter, observations that forced changes to perceptions of the perfection of the heavens and the centrality of the Earth - the appearance of the little book is regarded as one of the greatest moments in the history of science. It was also a point of change in the life of Galileo himself, propelling…
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"…
The rediscovery of Aristotle's works by Christians in the libraries of Muslim Spain set off an intellectual and moral revolution in the Roman Catholic Church that, in many ways, launched the modern era. Rubenstein's book tells how a remarkable series of characters, including Peter Abelard, Thomas Aquinas, and William of…
I am Professor Emeritus of History at the University of Kansas, where I taught the History of Chemistry, History of Science in the United States, Early-Modern Scientific Revolution, and Great Lives in Science, among other courses. I also have published on late 19th-century physical science (with emphasis on spectroscopy and the work of Sir William Crookes) and the development of 20th-century electronic devices to aid chemical analyses (e.g., the development of handheld x-ray fluorescence spectrometers to measure lead concentration in paint). In addition to my interests in the history of science, I serve as the Technical Editor for an international environmental services company.
No better overall treatment of the Scientific Revolution during the 17th century is available for the reader who would encounter this material for the first time.
I used this book as a major text in my survey course on the history of modern science. The author also wrote arguably the leading biography of Isaac Newton.
This introduction to the history of science in the seventeenth century examines the so-called 'scientific revolution' in terms of the interplay between two major themes. The Platonic-Pythagorean tradition looked on nature in geometric terms with the conviction that the cosmos was constructed according to the principles of mathematical order, while the mechanical philosophy conceived of nature as a huge machine and sought to explain the hidden mechanisms behind phenomena. Pursuing different goals, these two movements of thought tended to conflict with each other, and more than the obviously mathematical sciences were affected - the influence spread as far as chemistry…
Much of my life’s work has focused on integrating planetary science into the geology curriculum and translating its rigorous scientific findings for public consumption. Experience has taught me that geologic methods and concepts are the most useful way to explore and understand extraterrestrial objects. Moreover, although only a modest number of geologists actually work in planetary science, ongoing planetary exploration has proved to be a powerful means of motivating the next generation of scientists and engineers.
I learned so much about the observable, outer parts of planets from reading this book. The authors review the nature of planetary crusts and offer keen insights and new perspectives on the way the crusts of Earth and other planets formed and evolved.
This book made me reassess how I view planetary crusts.
Planetary Crusts explains how and why solid planets and satellites develop crusts. Extensively referenced and annotated, it presents a geochemical and geological survey of the crusts of the Moon, Mercury, Venus, Earth and Mars, the asteroid Vesta, and several satellites like Io, Europa, Ganymede, Titan and Callisto. After describing the nature and formation of solar system bodies, the book presents a comparative investigation of different planetary crusts and discusses many crustal controversies. The authors propose the theory of stochastic processes dominating crustal development, and debate the possibility of Earth-like planets existing elsewhere in the cosmos. Written by two leading authorities…
I am a senior geologist emeritus (retired in 2020) whose research focused on volcanic features on Mars, Venus, and the Moon, particularly very long lava flows. I enjoy studying features on Earth in order to improve our understanding of similar features on other planets (also including the study of sand dunes). I worked for more than 32 years at the National Air and Space Museum of the Smithsonian Institution in Washington, D.C., which allowed me to do scientific research while also presenting the wonder of planetary geology to public audiences throughout the U.S. and in several countries across the world.
I recommend this book to anyone who asks me about volcanoes. It is a concise, easy-to-read account of the major volcanic revelations that have resulted from the robotic spacecraft exploration throughout the solar system.
The book is filled with exquisite photographs and logically organized chapters. Eleven chapters describe volcanic features both on Earth as well as many other worlds in our solar system. Each chapter is written well by an expert on each particular subject (and interestingly, all of the authors are women).
Written by active research scientists who study the volcanism of Earth and of other planets, the contributions provide the first general review of volcanic activity throughout the Solar System. Successive chapters describe past and present volcanic activity as it is observed throughout the Solar System. These chapters relate to readers not only our present knowledge of volcanism throughout the Solar System but also how frontline scientists working in this field conduct their research.
As an author and an environmental scientist, I believe in the power of storytelling to help make the world a kinder, greener place. I love stories that advocate for hope in the face of the climate crisis, encouraging readers to learn more and be part of driving positive change. When I’m not busy writing or researching, I like to read books that celebrate the beauty of nature and provide guidance for protecting natural ecosystems. If you care deeply about environmental causes – or just want to start learning more – these books are a great place to start!
This book is an ode to the Natural History Museum’s extensive collection.
The book includes poems of all kinds, focusing on everything from earth systems to planetary science to the age of the dinosaurs. I loved reading so broadly across topics and appreciating a range of unique poetic styles.
For me, reading this book really was like wandering through the museum halls and searching for hidden treasures.
1
author picked
Wonder
as one of their favorite books, and they share
why you should read it.
This book is for kids age
8,
9,
10, and
11.
What is this book about?
Wonder: The Natural History Museum Poetry Book is a beautiful gift hardback collection of poetry with poems inspired by The Natural History Museum.
It covers everything from the depths of space to the very centre of the earth - there are poems about the solar system, planet earth, oceans and rivers, birds, dinosaurs, fossils, wildlife, flowers, fungi, insects, explorers and palaeontologists. Each section includes an introduction and some footnotes about particularly interesting species.
The museum has a collection of over eighty million objects and behind the scenes of its twenty-eight galleries crowd kilometres of preserved specimens, libraries of rare books…
Much of my life’s work has focused on integrating planetary science into the geology curriculum and translating its rigorous scientific findings for public consumption. Experience has taught me that geologic methods and concepts are the most useful way to explore and understand extraterrestrial objects. Moreover, although only a modest number of geologists actually work in planetary science, ongoing planetary exploration has proved to be a powerful means of motivating the next generation of scientists and engineers.
There are few textbooks in the emerging field of planetary science, and this book ranks among the most accessible. Although physics and astronomy-based, it also considers geologic processes and materials in a quantitative way.
I found the hundreds of exercises useful for understanding the concepts introduced in the text.
A quantitative introduction to the Solar System and planetary systems science for advanced undergraduate students, this engaging new textbook explains the wide variety of physical, chemical and geological processes that govern the motions and properties of planets. The authors provide an overview of our current knowledge and discuss some of the unanswered questions at the forefront of research in planetary science and astrobiology today. They combine knowledge of the Solar System and the properties of extrasolar planets with astrophysical observations of ongoing star and planet formation, offering a comprehensive model for understanding the origin of planetary systems. The book concludes…
While watching my first eclipse of the Moon in the 5th grade I was awed that the Earth’s shadow stretched so far into space and by the speed the Moon passed through it. I started reading science fiction books and in high school discovered Sky & Telescope magazine. I've read S&T ever since and have proudly written its Moon column for the last 21 years. I've also built telescopes for backyard observing, earned a PhD in planetary science, worked at NASA & the Planetary Science Institute, written three books about the Moon, prepared 6 years of daily Lunar Photo of the Day blogs, and have been chair of the International Astronomical Union’s Lunar Nomenclature Task Group.
Epic Moon tells the stories of the often odd characters and their thoughts about the Moon in the 400 years before Apollo. Although Galileo and one or two other early astronomers found evidence that the Moon did not hold water or air, the search for life and changes such as volcanic eruptions, light flashes, insect migrations, vegetation growth, and lunar cities dominated most lunar mapping and telescopic exploration and interpretation. The observers weren’t crazy, the Moon was completely alien, but humans understood only what was known on Earth. Terrestrial impact craters were not recognized until the early 1900s and the origins of many were still doubted into the 1960s. The fundamental discoveries starting with Galileo, skipping to Mädler in the 1830s, and Shoemaker and Baldwin in the 1950s, finally reached a firmament of understanding after Apollo when scientists established the new disciplines of lunar and planetary science.
The Moon has always been one of the most obvious and in some ways the most enticing of astronomical objects - even from early times, it was Queen of the Night, and the naked eye sees more detail than even the largest telescopes reveal on Mars. There is growing evidence of a return of amateur observers to the Moon as an object worthy of their attention. It is the only alien world open to geological prospecting from the eyepieces of the backyard telescope.
I am a senior geologist emeritus (retired in 2020) whose research focused on volcanic features on Mars, Venus, and the Moon, particularly very long lava flows. I enjoy studying features on Earth in order to improve our understanding of similar features on other planets (also including the study of sand dunes). I worked for more than 32 years at the National Air and Space Museum of the Smithsonian Institution in Washington, D.C., which allowed me to do scientific research while also presenting the wonder of planetary geology to public audiences throughout the U.S. and in several countries across the world.
Think of this book as the ultimate tourist guide for someone who wants to visit and "experience" volcanoes.
Lopes is a knowledgeable volcanologist and planetary scientist who brings first-person authority to her writing. The first chapters provide the basics needed to choose which volcanoes one would like to visit, followed by well-written descriptions of 28 volcanoes or volcanic regions from around the world.
Each account provides the reader with an understanding of why the volcano is where it is, plus practical information that could help make a visit to that volcano more enjoyable.
The Volcano Adventure Guide is the first book of its type. It contains vital information for anyone wishing to visit, explore, and photograph active volcanoes safely and enjoyably. Following an introduction that discusses eruption styles of different types of volcanoes, how to prepare for a volcano trip, and how to avoid volcanic dangers, the book presents guides to visiting 42 different volcanoes around the world. This section is packed full of practical information including tour itineraries, maps, transportation details, and warnings of possible non-volcanic dangers. Three appendices at the end of the book direct the reader to a wealth of…
