This book provides a comprehensive overview of humanistic approaches to science. Approaches that connect students to broader human concerns in their everyday life and culture. Glen Aikenhead, an expert in the field of culturally sensitive science education, summarizes major worldwide historical findings; focuses on present thinking; and offers evidence in support of classroom practice. This highly accessible text covers curriculum policy, teaching materials, teacher orientations, teacher education, student learning, culture studies, and future research.
From paintings and food to illness and icebergs, science is happening everywhere. Rather than follow the path of a syllabus or textbook, Andrew Morris takes examples from the science we see every day and uses them as entry points to explain a number of fundamental scientific concepts – from understanding colour to the nature of hormones – in ways that anyone can grasp. While each chapter offers a separate story, they are linked together by their fascinating relevance to our daily lives. The topics explored in each chapter are based on hundreds of discussions the author has led with adult science learners over many years – people who came from all walks of life and had no scientific training, but had developed a burning curiosity to understand the world around them. This book encourages us to reflect on our own relationship with science and serves as an important reminder of why we should continue learning as adults.
Sunny Auyang tackles what she calls "the large pictures of the human mind," exploring the relevance of cognitive science findings to everyday mental life. Auyang proposes a model of an "open mind emerging from the self-organization of infrastructures," which she opposes to prevalent models that treat mind as a disembodied brain or computer, subject to the control of external agents such as neuroscientists and programmers. Although cognitive science has obtained abundant data on neural and computational processes, it barely explains such ordinary experiences as recognizing faces, feeling pain, or remembering the past. In this book Sunny Auyang tackles what she calls "the large pictures of the human mind," exploring the relevance of cognitive science findings to everyday mental life. Auyang proposes a model of an "open mind emerging from the self-organization of infrastructures," which she opposes to prevalent models that treat mind as a disembodied brain or computer, subject to the control of external agents such as neuroscientists and programmers. Her model consists of three parts: (1) the open mind of our conscious life; (2) mind's infrastructure, the unconscious processes studied by cognitive science; and (3) emergence, the relation between the open mind and its infrastructure. At the heart of Auyang's model is the mind that opens to the world and makes it intelligible. A person with an open mind feels, thinks, recognizes, believes, doubts, anticipates, fears, speaks, and listens, and is aware of I, together with it and thou. Cognitive scientists refer to the "binding problem," the question of how myriad unconscious processes combine into the unity of consciousness. Auyang approaches the problem from the other end—by starting with everyday experience rather than with the mental infrastructure. In so doing, she shows both how analyses of experiences can help to advance cognitive science and how cognitive science can help us to understand ourselves as autonomous subjects.
FINALIST for the Subaru Prize for Excellence in Science Books “This book shows that chemistry is not just relevant to life; it’s really, really interesting.”—Foreword Reviews, STARRED review A perfect book for readers of The Physics of Everyday Things and Storm in a Teacup Have you ever wondered why your alarm clock sends you spiraling? Or how toothpaste works on your teeth? Why do cakes and cookies sometimes turn out dry? (Hint: you may not be adding enough sugar.) In Chemistry for Breakfast, award-winning chemist and science communicator Mai Thi Nguyen-Kim reveals the amazing chemistry behind everyday things (like baking and toothpaste) and not-so-everyday things (like space travel). With a relatable, funny, and conversational style, she explains essential chemical processes everyone should know—and turns the ordinary into extraordinary. Over the course of a single day, Mai shows us that chemistry is everywhere: we just have to look for it. In the morning, her partner’s much-too-loud alarm prompts a deep dive into biological clocks, fight-or-flight responses, and melatonin’s role in making us sleepy. Before heading to the lab, she explains how the stress hormone cortisol helps wake us up, and brews her morning coffee with a side of heat conduction and states of matter. Mai continues her day with explainers of cell phone technology, food preservation, body odor, baking, the effects of alcohol, and the chemistry behind the expression “love drunk.” All the while, she shows us what it’s really like to be a working chemist, and fights against the stereotype of a nerd playing with test tubes in a lab coat. Filled with charming illustrations, laughter, and plenty of surprises, Chemistry for Breakfast is a perfect book for anyone who wants to deepen their understanding of chemistry without having prior knowledge of the science. With Mai as your guide, you’ll find something fascinating everywhere around you.
The process of "self-organization" reveals itself in the inanimate worlds of crystals and seashells, but, as Len Fisher shows, it is also evident in living organisms, from fish to ants to human beings. Understanding the "swarm intelligence" inherent in groups can help us do everything from throw a better party to start a fad to make our interactions with others more powerful. Humorous and enlightening, The Perfect Swarm demonstrates how complexity arises from nature's simple rules and how we can use their awesome power to untangle the frustrating complexities of life in our ever more chaotic world.
Can you really lose weight by consuming nothing but ice cream and beer? How does the latest blockbuster movie get squeezed onto a disk, and how do they make the pictures seem 3D? How much does a selfie weigh? What's the science behind forensic investigations, body scans, and the dating of ancient artefacts? The Physics Behind... takes the reader on a fascinating journey through the scientific principles that that make the modern world work. Could there be life on Mars? Why is north really south? How do self-driving cars find their way around? These and many more topics are explored by starting with the basic science that makes them tick - examining the physics behind them. Packed with detailed original artwork and infographics, The Physics Behind... is perfect for anyone who has ever been curious about the science of life. Including: - The physics behind modern life: Wi-Fi, Facial recognition, touchscreens, microwave ovens, the ice cream and beer diet, taking a selfie, Flash memory, a bag of sugar, catching the train, calendars and clocks - The physics behind entertainment: optical discs, lasers, white water, executive toys, the electric guitar, music, 3D movies - The physics behind analysis: medical imaging, looking at little things, spectroscopy, crime scene investigation, tricorder, microfluidics, radiocarbon dating, proving the Earth is round - The physics behind space: rocket science, space weather, Planet Nine, space telescopes, is there anybody out there? life on Earth, life on Mars - The physics behind big science: what's the matter?, time travel, bomb or meltdown?, the Large Hadron Collider, the Human Genome Project, the Standard Model, gravity, everything - The physics behind the weird universe: strings, rings and other things, N-dimensional space, the hypercube, antimatter, the dark universe, quantum weirdness, quantum biology, time crystals and Majorana - The physics behind the environment: weather forecasts, climate change, renewable energy, migration, peacock feathers, sunburn, rainbows, spider silk - The physics behind transportation: autonomous autos, Hyperloop, Maglev, satellite navigation, motor sport, going rreeaallllyy fast, stealth - The physics behind everything else: curve balls, the Mpemba Effect, why north is really south, perpetual motion and the heat death of the universe, and the physics behind this book.