Here are 100 books that The Emergence of a Scientific Culture fans have personally recommended if you like
The Emergence of a Scientific Culture.
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Being a creative person, I studied design to make the world better… only to realise that great ideas and designs often falter because we hold ourselves back by the way we think. I had to study philosophy to understand what is limiting us. And then I left my own design work behind to study the practices expert creatives (like top design professionals) have developed to get past these roadblocks. Having discovered how they can create new frames, time and time again, it has become my mission to empower other people to do this – not only on a project level, but taking these practices to the organizational sector and societal transformation.
In this classic book, Kuhn introduces the idea of a "paradigm" and shows that real progress comes through paradigm shifts.
That hit me like a rock when I first read it. I love how in the second edition, Kuhn talks about the difficulties of deep change: "the problem is that the new paradigm is always worse than the old one."
The new paradigm may be better in some way, but it is also sketchy, unformed, and it creates lots of new uncertainties. So, for somebody to shift to a new paradigm always requires a leap of faith!
A good book may have the power to change the way we see the world, but a great book actually becomes part of our daily consciousness, pervading our thinking to the point that we take it for granted, and we forget how provocative and challenging its ideas once were-and still are. "The Structure of Scientific Revolutions" is that kind of book. When it was first published in 1962, it was a landmark event in the history and philosophy of science. And fifty years later, it still has many lessons to teach. With "The Structure of Scientific Revolutions", Kuhn challenged long-standing…
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…
As a boy, I loved reading about science and technology and became a physicist. To my surprise, I found myself increasingly drawn to studying the history of science and philosophy of science, which attempts to understand how and why science “works.” I resigned from my job as a physicist and devoted myself to full-time graduate study in this field, enjoying every moment of it. I began a forty-nine-year academic career—the last thirty-nine at Lehigh University—teaching courses of my own design in the history and philosophy of science and also in how science, technology, and society mutually influence one another. I can honestly say that I remain excited even now about attempting to understand how scientific knowledge impacts society.
I especially love reading historically important scientific works themselves. Reading them, you participate in the thinking of a great scientist and get a feeling for the thinker. Many of these are accessible to the general reader, among them this book, an important contribution to the creation of modern science.
It so angered the Pope that he turned Galileo over to the Roman Inquisition, who found him guilty of heresy for not-so-subtly arguing the truth of Copernicus’ theory that the Earth is not motionless at the center of the universe, as was then believed and defended by the Church but moves around the Sun just like all the other planets. In exchange for publicly recanting this view, he was sentenced to house arrest for the rest of his life.
Galileo’s Dialogue Concerning the Two Chief World Systems, published in Florence in 1632, was the most proximate cause of his being brought to trial before the Inquisition. Using the dialogue form, a genre common in classical philosophical works, Galileo masterfully demonstrates the truth of the Copernican system over the Ptolemaic one, proving, for the first time, that the earth revolves around the sun. Its influence is incalculable. The Dialogue is not only one of the most important scientific treatises ever written, but a work of supreme clarity and accessibility, remaining as readable now as when it was first published. This…
As a boy, I loved reading about science and technology and became a physicist. To my surprise, I found myself increasingly drawn to studying the history of science and philosophy of science, which attempts to understand how and why science “works.” I resigned from my job as a physicist and devoted myself to full-time graduate study in this field, enjoying every moment of it. I began a forty-nine-year academic career—the last thirty-nine at Lehigh University—teaching courses of my own design in the history and philosophy of science and also in how science, technology, and society mutually influence one another. I can honestly say that I remain excited even now about attempting to understand how scientific knowledge impacts society.
I have read and re-read this book several times, each time with enjoyment. The author tells a fascinating story about the discovery, interpretation, and re-interpretation of ancient human fossils, and I think he tells it in a way that draws people in.
I am most impressed by his ability to show the reader the role that assumptions and prejudices play in scientific discovery and theorizing without preaching. This book opens a window for the general reader onto how science really works.
This is a behind-the-scenes look at the search for human origins, analyzing how the biases and preconceptions of paleoanthropologists shape their work. The stories of the Taung Child and Neanderthal Man provide the background to the modern search for an exploration of how and where humans evolved. In this edition, the afterword looks at ways in which paleoanthropology, while becoming more scientific, in many ways remains contentious. It is Lewin's thesis that paleoanthropology is the most subjective of sciences because it engages the emotions of virtually everyone; and since the evidence is scanty, interpretation is all-important.
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…
As a boy, I loved reading about science and technology and became a physicist. To my surprise, I found myself increasingly drawn to studying the history of science and philosophy of science, which attempts to understand how and why science “works.” I resigned from my job as a physicist and devoted myself to full-time graduate study in this field, enjoying every moment of it. I began a forty-nine-year academic career—the last thirty-nine at Lehigh University—teaching courses of my own design in the history and philosophy of science and also in how science, technology, and society mutually influence one another. I can honestly say that I remain excited even now about attempting to understand how scientific knowledge impacts society.
I really like this book and I regularly use it as a textbook in my Introduction to the Philosophy of Science course.
What I like is the way that Losee uses very short case studies in the history of science to refute the popular view that, through experimentation and observation, nature decides between competing theories and provides the justification for replacing an older theory with a new one. Although Losee does not always agree with Kuhn, I find that his book beautifully complements the history-based argument in Kuhn’s book, and both are short!
In a recent issue of the Atlantic Monthly, Cullen Murphy wrote that "It is always a little disconcerting when audacious scientific theories come a cropper." In this case, he was speaking of Stephen Hawking's now self-repudiated idea that information swallowed by cosmic black holes might be escaping into "baby universes." John Losee looks at the subject of rejected scientific theories through an analysis of case studies from more than two centuries of science. Losee excerpts the work of prominent scientists and philosophers of science accompanied by evaluative comments from the fields of science and philosophy. He sets these discussions within…
I have been intrigued by science since childhood, especially astronomy, and I became a university academic, teaching physics to students and researching in experiments with elementary particles. I was raised in a Christian family and have maintained my faith. I don’t find any real issues with science–it shows how clever God was in creating the universe! At the same time, I know many people have difficulties in this area. My book was written to help them, and I think the recommended books will help them, too.
Alister McGrath is one of the most readable authors on difficult areas. Here, he deals with some very general issues of religious faith in a scientific age and addresses the personal side of the equation.
Religion won’t go away, and McGrath tells us how and why this is so, bringing in some important philosophical questions that he explains in a very down-to-earth way. Whether we realize it or not, we all have a personal philosophy, and science and faith can help each other. I found it hard to put this book down.
We just can't stop talking about the big questions around science and faith. They haven't gone away, as some predicted they might; in fact, we seem to talk about them more than ever. Far from being a spent force, religion continues to grow around the world. Meanwhile, Richard Dawkins and the New Atheists argue that religion is at war with science - and that we have to choose between them.
It's time to consider a different way of looking at these two great cultural forces. What if science and faith might enrich each other? What if they can together give…
My love for ideas and their history was born when I was still in high school. It was my old English teacher who first opened up the power of ideas in literature to change the world. I’m pretty sure he loved Eleanor Roosevelt’s comment: “Great minds discuss ideas; average minds discuss events; small minds discuss people.” Whether or not that’s true, my taste was further sharpened when I took a two-year course on the history of thought about nature and culture as an undergraduate student. I was captivated.
This book has long been my go-to guide on all matters related to the relationship between science and religion. Its beauty is that it takes a cool, clear-headed look at the history of a subject that frequently stimulates more heat than light.
It’s now over thirty years old but has aged extremely well–certainly better than I have! I still find it illuminating on episode after episode. The connections are subtle and complex; Brooke never allows us to settle for comfortable simplicity.
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’m a third-grade teacher turned book editor and writer who loves learning about the fascinating world God has made and exploring how it all points back to him. During my time in the classroom, I worked at a Christian classical school where my grade’s scientific focus was astronomy. I loved introducing my students to this awe-inspiring, gigantic universe that we are a part of and considering together just how big, powerful, and loving God must be to have designed and created it all. I am also mom to two wonderfully curious children who love to read, explore, and ask big questions.
This wacky science experiment/devotional book is a great resource for families with kids of all ages to explore the deep connection between faith and science.
It has over fifty fun, relatively uncomplicated, hands-on science experiments along with areas for kids to practice core scientific skills, including creating and testing hypotheses and recording observations. Each experiment is also paired with a Scripture passage and related devotion in a way that feels natural and not contrived.
I love that I can easily pull this book off the shelf for a quick science experiment with my kids, or I can choose to turn it into a longer devotional time for our family. I also love that it clearly lays out how all science is meant to point us to God!
Faith and Science with Dr. Fizzlebop features 52 easy experiments kids and parents can do together once a week or at their convenience. Each experiment will have a how-to video featured in the free Fizzlebop Labs web series launching in fall ’21. Building on Dr. Fizzlebop’s desire to show kids how faith and science connect, each experiment connects to a devotional that allows kids to go deeper and learn about God’s amazing design for everything around them. On average, each experiment takes 5 to 10 minutes and the devotional is an additional 5 minutes.Our expert and guide, Dr. Phineas Einstein…
I’ve always had equally balanced interests in the arts/humanities and the natural sciences. I started as a physics major in college but added a second major in philosophy after encountering the evolutionary theories of Hegel, Bergson, Alexander, Whitehead, and Teilhard de Chardin. This interest continued in graduate school at Northwestern, where my first year coincided with the arrival of Prof. Errol E. Harris, who had a similar focus and would direct my doctoral dissertation in philosophy, whose title was From Ontology to Praxis: A Metaphilosophical Inquiry into Two Philosophical Paradigms. One of the “paradigms” was reductionist; the other was emergentist.
Clayton and Davies selected the diverse essays by various experts in this area of research to show the relevance of the emergentist paradigm to diverse areas of inquiry–including quantum physics, astronomy, cell biology, and primatology.
These lines of inquiry converge on the more provocative question of the emergence of consciousness from the brain...with an added discussion of the relevance of theological questions, including the relation between God and the world.
The thirteen essays of this study are divided into four broad areas: (1) The Physical Sciences, (2) The Biological Sciences, (3) Consciousness and Emergence, and (4) Religion and Emergence. Contributing authors include Jaegwon Kim, David J. Chalmers, and Arthur Peacocke. Here again, my perspective on this subject was broadened by the diversity of these treatments.
Much of the modern period was dominated by a `reductionist' theory of science. On this view, to explain any event in the world is to reduce it down to fundamental particles, laws, and forces. In recent years reductionism has been dramatically challenged by a radically new paradigm called `emergence'. According to this new theory, natural history reveals the continuous emergence of novel phenomena: new structures and new organisms with new causal powers. Consciousness is yet one more emergent level in the natural hierarchy. Many theologians and religious scholars believe that this new paradigm may offer new insights into the nature…
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 academic world began to dismantle the idea that there had always been a conflict between science and history about 50 years ago, but this book was one of the first to try and tell that story more widely.
It isn’t all one-sided. The authors dismantle some other popular "harmony" myths too (e.g., that Einstein believed in a personal God or that Quantum Physics proves free will), but for the most part, the myths they take apart–that mediaeval world thought the world was flat, or that the Church denounced anaesthesia on biblical grounds–are the ones that have lodged the idea of warfare in our cultural mind without justification.
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 have been intrigued by science since childhood, especially astronomy, and I became a university academic, teaching physics to students and researching in experiments with elementary particles. I was raised in a Christian family and have maintained my faith. I don’t find any real issues with science–it shows how clever God was in creating the universe! At the same time, I know many people have difficulties in this area. My book was written to help them, and I think the recommended books will help them, too.
I always feel that personal stories are the best recommendation for what people believe. Dan Graves gives us many prominent scientists who were at the same time sincere Christian believers.
They lived over many centuries and worked in various scientific fields, making some of the most important discoveries. Some were Catholics; some were protestants. I think this is a very readable book, and if anyone ever tries to say that a good scientist can’t be a Christian or the other way around, it provides complete proof that this is untrue.
