Here are 100 books that Science by the People fans have personally recommended if you like
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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…
I’ve been a philosopher before I knew what philosophers were: asking questions to challenge the starting points for conversations. My biggest pet peeve has always been people who were sure they entirely understood something. While scientists conduct science to help learn about the world, philosophers of science like me study science to try to figure out how it works, why (and when) it’s successful, and how it relates to human concerns and society. Humans ultimately invent science, and I think it’s fascinating to consider how its features relate to our interests and foibles and how it’s so successful at producing knowledge and practical abilities.
The Vienna Circle was a group of polymaths—primarily scientists and philosophers—who held weekly meetings in Vienna between the World Wars. This book is by far the best retelling of their story, and it’s fascinating.
While their names aren’t well known, their work had tremendous influence. They prominently shaped the reception and understanding of Einstein’s new theories of relativity, began the use of simple images to communicate information without words, and introduced logical developments that eventually led to computers and other technology.
From the author of Wittgenstein's Poker and Would You Kill the Fat Man?, the story of an extraordinary group of philosophers during a dark chapter in Europe's history
On June 22, 1936, the philosopher Moritz Schlick was on his way to deliver a lecture at the University of Vienna when Johann Nelboeck, a deranged former student of Schlick's, shot him dead on the university steps. Some Austrian newspapers defended the madman, while Nelboeck himself argued in court that his onetime teacher had promoted a treacherous Jewish philosophy. David Edmonds traces the rise and fall of the Vienna Circle-an influential group…
I’ve been a philosopher before I knew what philosophers were: asking questions to challenge the starting points for conversations. My biggest pet peeve has always been people who were sure they entirely understood something. While scientists conduct science to help learn about the world, philosophers of science like me study science to try to figure out how it works, why (and when) it’s successful, and how it relates to human concerns and society. Humans ultimately invent science, and I think it’s fascinating to consider how its features relate to our interests and foibles and how it’s so successful at producing knowledge and practical abilities.
This book takes what seems to be an incredibly basic feature of the world—temperature—and shows how a tremendous amount of scientific ingenuity and choices made over two centuries contributed to defining and measuring temperatures.
Showing how concepts taken for granted today emerged over time and could have been different helps reveal how little of what we know comes from direct observation.
What is temperature, and how can we measure it correctly? These may seem like simple questions, but the most renowned scientists struggled with them throughout the 18th and 19th centuries. In Inventing Temperature, Chang examines how scientists first created thermometers; how they measured temperature beyond the reach of standard thermometers; and how they managed to assess the reliability and accuracy of these instruments without a circular reliance on the instruments themselves.
In a discussion that brings together the history of science with the philosophy of science, Chang presents the simple yet challenging epistemic and technical questions about these instruments, and…
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…
I’ve been a philosopher before I knew what philosophers were: asking questions to challenge the starting points for conversations. My biggest pet peeve has always been people who were sure they entirely understood something. While scientists conduct science to help learn about the world, philosophers of science like me study science to try to figure out how it works, why (and when) it’s successful, and how it relates to human concerns and society. Humans ultimately invent science, and I think it’s fascinating to consider how its features relate to our interests and foibles and how it’s so successful at producing knowledge and practical abilities.
“Science doesn’t care what you believe” has become a slogan meant to point out that science is objective. Yet science is influenced by social and cultural values—by what we believe and what we think is important—in many ways.
This approachable book outlines how values can influence science, describing when that influence is okay and when it’s not.
The role of values in scientific research has become an important topic of discussion in both scholarly and popular debates. Pundits across the political spectrum worry that research on topics like climate change, evolutionary theory, vaccine safety, and genetically modified foods has become overly politicized. At the same time, it is clear that values play an important role in science by limiting unethical forms of research and by deciding what areas of research have the greatest relevance for society. Deciding how to distinguish legitimate and illegitimate influences of values in scientific research is a matter of vital importance. Recently, philosophers…
I became fascinated by the origin and evolution of life as a chemistry student after watching the TV series The Ascent of Man by Jacob Bronowski. I have been thrilled by the dramatic breakthroughs that have occurred since then, and I’ve written many articles and reviews on this and related topics for newspapers and magazines such as the Guardian, Independent, The Times, Daily Mail, Financial Times, Scientific American, New Scientist, New Humanist, World Medicine, New Statesman, and three books on various aspects of the evolution of both life and technology, including Thinking Small and Large.
I have spent a lifetime researching the deep history of life.
All the books I’ve chosen demonstrate a convergence of exciting ideas, and I love the way Peter Brannen’s book joins the dots in a totally fresh way, showing how life gained energy at key stages, all involving CO2. It is the starting point for every living thing on the planet; it has regulated the climate throughout 4 billion years, and through the fossil remains of ancient photosynthesis has powered our world since the Industrial Revolution.
In a world seeking answers to deep-rooted problems, this is the most powerful message for the future that we need. I have never before been so mindblown by a book.
How carbon dioxide made planet Earth, shaped human history, and now holds our future in the balance
Every year, we are dangerously warping the climate by putting gigantic amounts of carbon dioxide into the air. But CO2 isn't merely the by-product of burning fossil fuels—it is also fundamental to how our planet works. All life is ultimately made from CO2, and it has kept Earth bizarrely habitable for hundreds of millions of years. In short, it is the most important substance on Earth. But how is it that CO2 is as essential to life on Earth as it is capable…
I am an evolutionary biologist who wrote two books on my theory that all species increase the biodiversity of their ecosystem in a natural environment (humans are an exception to this). I am a dedicated conservationist and founder and president of the World Rainforest Fund (worldrainforest.org), a nonprofit organization dedicated to saving the Earth’s rainforests. I collected reptiles and fossils when I was a child, and never out-grew my passion and love for science, biology, biodiversity, the natural world, animals, plants, ecology, and evolution. I love reading about these topics, hearing lectures on them, and learning about them. I love being in nature, traveling to natural ecosystems, and seeing wildlife.
This book presents a fascinating theory that life created an atmosphere favorable to life. The sun is much hotter than when life began. Life kept the temperature beneficial to life by removing greenhouse gasses from the air. Organisms created an atmosphere high in oxygen.
The book is exciting and educates the reader on the interaction of life and the geophysical environment. This book is relevant to and influenced my theory that all species increase biodiversity, the theory about which I wrote the two books I am featuring here.
In this classic work that continues to inspire many readers, Jim Lovelock puts forward his idea that the Earth functions as a single organism. Written for non-scientists, Gaia is a journey through time and space in search of evidence in support of a radically different model of our planet. In contrast to conventional belief that life is passive in the face of threats to its existence, the book explores the hypothesis that the Earth's living matter influences air, ocean, and rock to form a complex, self-regulating system that has the capacity to keep the Earth a fit place for life.…
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 marine biologist with a Ph.D. in Biology, a conservationist, and an author. As the co-founder of Ocean Conservation Society, I have conducted one of the world’s longest studies on dolphins off California. I have co-authored Beautiful Minds: The Parallel Lives of Great Apes and Dolphins and authored Dolphin Confidential: Confessions of a Field Biologist and Stranded: Finding Nature in Uncertain Times. My latest illustrated children’s book is The Secret Life of a Sea Turtle. I've written for national and international media, including National Geographic, and currently contribute essays on environmental issues and nature for various publications.
I write children’s books because I believe young minds hold the key to saving our troubled oceans. To achieve this, though, we must educate kids and encourage them to take action. This nonfiction book excels at that, inspiring and teaching children to become the next generation of environmental activists.
It is an important book because it explores the five oceans as one interconnected ecosystem, highlighting their critical role in sustaining a livable planet. It goes a step further by explaining actionable steps we can take to help. This message resonates not only with children ages 8 to 12 but with adults, too (and I love that!) The eye-catching illustrations (which, of course, include my dearies, dolphins, and whales) enhance the appeal and engagement for both young readers and educators.
The global ocean is in trouble. This beautiful and important book explores the issues — and what we can do to help.
Though we think of Earth’s five oceans as separate and distinct, they are actually a linked system of circulating water that is one single ocean — the global ocean. This comprehensive and accessible overview explores the global ocean’s enormous influence on the planet, as well as humans’ often-detrimental influence on the ocean. But it also highlights some of the many ways people are working to restore and heal the global ocean — from everyday actions to large institutional…
Simo Laakkonen is director of Degree Program in Digital Culture, Landscape and Cultural Heritage, University of Turku, Finland. He is an environmental historian who has specialized among other things on the global environmental history of warfare during Industrial Age. He has coedited on this theme two special issues and three books, the latest one is The Resilient City in World War II: Urban Environmental Histories. He has selected five books that cover some main phases of the long environmental history of wars and mass violence.
After Hiroshima and Nagasaki no one knew, with certainty, the outcomes of Western techno-scientific progress.
If governmental laboratories had been able to develop in secrecy bombs that could wipe out an entire city, then how sanguine could anyone be of fruits of scientific research?
Dr. Hamblin shows how scientists in Western laboratories exceeded even the most outlandish sci-fi fantasies of the Cold War.
In addition to developing biological and radiological weapons, scientists explored various ways to exploit crop destruction, massive fires, artificial earthquakes and tsunamis, ocean current manipulation, sea level tinkering, weather control, and even climate change in the coming World War III.
Famines. Diseases. Natural catastrophes. In 1945, scientists imagined these as the future faces of war. The United States and its allies prepared for a global struggle against the Soviet Union by using science to extend "total war" ideas to the natural environment. Biological and radiological weapons, crop destruction, massive fires, artificial earthquakes and tsunamis, ocean current manipulation, sea level tinkering, weather control, and even climate change-all these became avenues of research at the height of the Cold War. By the 1960s, a new phrase had emerged: environmental warfare.
The same science-in fact, many of the same people-also led the way…
As a city researcher and urban planner I must constantly scan the urban world for trends and plans and projects. It really started when I was writing my PhD thesis on density and green spaces in cities. The thesis title became Compact Sprawl. I like counterpoints. Today I run to companies. Spacescape that is an urban planning consultancy and Placetoplan that is a webapp for citizen participation in planning. My home is covered with books about cities, architecture, transportation, parks, and natural landscapes. I am also a landscape architect, by the way. And I live in downtown Stockholm with two children and no car.
Although the concept sounds theoretical, this book is about very simple techniques on how to cheap and fast change urban spaces, streets, and plazas so that they are for people (not cars). The book provides a toolkit for conceiving, planning, and carrying out projects, including how to adapt them based on local needs and challenges. Tactical Urbanism can inspire and empower citizens, urban designers, land use planners, architects, and policymakers to become key actors in the transformation of their communities.
Short-term, community-based projects - from pop-up parks to open streets initiatives - have become a powerful and adaptable new tool of urban activists, planners, and policy-makers seeking to drive lasting improvements in their cities and beyond. These quick, often low-cost, and creative projects are the essence of the Tactical Urbanism movement. Whether creating vibrant plazas seemingly overnight or re-imagining parking spaces as local gathering places, they offer a way to gain public and government support for investing in permanent projects, inspiring residents and civic leaders to experience and shape urban spaces in a new way. Tactical Urbanism, written by Mike…
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…
The ethnobotanist Richard Evans Schultes noted that botanists should write history because so much history involves plants. Coincidentally, I am a botanist with a deep interest in history. I began as a child botanizing abandoned farmers’ fields, and now I am always on the lookout for topics at the intersection of plants and human affairs. The books on my list are among many I read while researching for my book. In exploring the role of plants in warfare, I have synthesized vast information about human and military needs, from rationed foods to camouflage and battlefront medicine. Germany provided many unexpected findings.
Science collapses when scientists ignore objectivity and unbiased analysis, and Robert N. Proctor argues this effectively in this book.
I had long assumed (incorrectly) that racial doctrine during the Third Reich came directly from Hitler, but many German scientists actively espoused racial policies with supposed scientific justification. It may be hard to accept that some scientists became sympathizers overnight, no doubt for their own welfare and survival.
Proctor illustrates that pure science can be adapted for evil intent and that a self-centered agenda can result in illegitimate outcomes.
Scholars exploring the history of science under the Nazis have generally concentrated on the Nazi destruction of science or the corruption of intellectual and liberal values. Racial Hygiene focuses on how scientists themselves participated in the construction of Nazi racial policy. Robert Proctor demonstrates that the common picture of a passive scientific community coerced into cooperation with the Nazis fails to grasp the reality of what actually happened-namely, that many of the political initiatives of the Nazis arose from within the scientific community, and that medical scientists actively designed and administered key elements of National Socialist policy.
