It touches on its evolutionary development, its algorithmic nature and its scientific history by bridging ideas across Neuroscience, Computer Science, Biotechnology, Evolutionary History, Cognitive Science, Political Philosophy, and Artificial Intelligence.Never before had there been nearly as many scientists, resources or productive research focused on these topics, and humanity has achieved some understanding and some clarification. With the speed of progress it is timely to communicate an overreaching perspective, this book puts an emphasis on conveying the essential questions and what we know about their answers in a simple, clear and exciting way.Humans, along with the first RNA molecules, the first life forms, the first brains, the first conscious animals, the first societies and the first artificial agents constitute an amazing and crucial development in a path of increasingly complex computational intelligence. And yet, we occupy a minuscule time period in the history of Earth, a history that has been written by Genes, by Cultures and by Consciousnesses. If we abandon our anthropomorphic bias it becomes obvious that Humans are not so special after all. We are an important but short and transitory step among many others in a bigger story. The story of our computational minds, which is ours but not only ours. What is the relationship between computation, cognition and everything else? What is life and how did it originate? What is the role of culture in human minds? What do we know about the algorithmic nature of the mind, can we engineer it? What is the computational explanation of consciousness? What are some possible future steps in the evolution of minds? The underlying thread is the computational nature of the Mind which results from the mixture of Genes, Cultures and Consciousness. While these three interact in complex ways, they are ultimately computational systems on their own which appeared at different stages of history and which follow their own selective processes operating at different time scales. As technology progresses, the distinction between the three components materializes and will be a key determinant of the future.Among the many topics covered are the origin of life, the concept of computation and its relation to Turing Machines, cultural evolution and the notion of a Selfish Meme, free will and determinism, moral relativity, the hard problem of consciousness, the different theories of concepts from the perspective of cognitive science, the current status of AI and Machine Learning including the symbolic vs sub-symbolic dichotomy, the contrast between logical reasoning and neural networks, and the recent history of Deep Learning, Geoffrey Hinton, DeepMind and its algorithm AlphaGo. It also develops on the history of science and looks into the possible future building on the work of authors like Daniel Dennett, Yuval Harari, Richard Dawkins, Francis Crick, George Church, David Chalmers, Susan Carey, Stanislas Dehaene, Robert Boyd, Joseph Henrich, Daniel Kahneman, Moran Cerf, Josh Tenenbaum, David Deutsch, Steven Pinker, Ray Kurzweil, John von Neumann, Herbert Simon and many more. Andres Campero is a researcher and PhD student at the Brain and Cognitive Sciences Department and at the Computer Science and Artificial Intelligence Laboratory at the Massachusetts Institute of Technology (MIT).

    But molecules, such as water and sugar, are not alive. So how do our cells--assemblies of otherwise "dead" molecules--come to life, and together constitute a living being? In "Life's Ratchet," physicist Peter M. Hoffmann locates the answer to this age-old question at the nanoscale. The complex molecules of our cells can rightfully be called "molecular machines," or "nanobots"; these machines, unlike any other, work autonomously to create order out of chaos. Tiny electrical motors turn electrical voltage into motion, tiny factories custom-build other molecular machines, and mechanical machines twist, untwist, separate and package strands of DNA. The cell is like a city--an unfathomable, complex collection of molecular worker bees working together to create something greater than themselves. Life, Hoffman argues, emerges from the random motions of atoms filtered through the sophisticated structures of our evolved machinery. We are essentially giant assemblies of interacting nanoscale machines; machines more amazing than can be found in any science fiction novel. Incredibly, the molecular machines in our cells function without a mysterious "life force," nor do they violate any natural laws. Scientists can now prove that life is not supernatural, and that it can be fully understood in the context of science. Part history, part cutting-edge science, part philosophy, "Life's Ratchet" takes us from ancient Greece to the laboratories of modern nanotechnology to tell the story of our quest for the machinery of life.

    A Fellow at Oxford and a leading chemist, he has won admiration for his precise, lucid, and yet rigorous explanations of science. Now he turns his forensic mind to the greatest--and most controversial--questions of human existence: birth, death, the origin of reality, and its end.In On Being, Atkins makes a provocative contribution to the great debate between religion and science. Atkins makes his position clear from the very first sentence: The scientific method can shed light on every and any concept, even those that have troubled humans since the earliest stirrings of consciousness, he writes. He takes a materialist approach to the great questions of being that have inspired myth and religion, seeking to dispel their mystery without diminishing their grandeur. In placing scientific knowledge in such cosmic perspective, he takes us on an often dizzying tour of existence. For example, he argues that the substrate of existence is nothing at all. The total electrical charge of the universe, among other things, must be nothing--zero--he writes, or else the universe would have blasted itself apart. Charge was not created at the creation: electrical Nothing separated into equal and opposite charges. He explores breathtaking questions--asking the purpose of the universe--with wit and learning, touching on Sanskrit scriptures and John Updike along the way.

    From biblical plagues, to the AIDS crisis, to supergerms of the future, this updated and revised edition of the original covers the whole gamut of diseases that have threatened humanity since its origins.It also includes a new chapter on the history of bioterrorism and the deplorable role it has played and is likely to play in the phenomenal diversity of diseases.

    Purchasers are entitled to a free trial membership in the General Books Club where they can select from more than a million books without charge. Subjects: Astronomy; History / General; Juvenile Nonfiction / Science

    These transitions include the origin of life itself, the first eukaryotic cells, reproduction by sexual means, the appearance ofmulticellular plants and animals, the emergence of cooperation and of animal societies, and the unique language ability of humans. This ambitious book provides the first unified discussion of the full range of these transitions. The authors highlight the similarities between differenttransitions--between the union of replicating molecules to form chromosomes and of cells to form multicellular organisms, for example--and show how understanding one transition sheds light on others. They trace a common theme throughout the history of evolution: after a major transition someentities lose the ability to replicate independently, becoming able to reproduce only as part of a larger whole. The authors investigate this pattern and why selection between entities at a lower level does not disrupt selection at more complex levels. Their explanation encompasses a compellingtheory of the evolution of cooperation at all levels of complexity. Engagingly written and filled with numerous illustrations, this book can be read with enjoyment by anyone with an undergraduate training in biology. It is ideal for advanced discussion groups on evolution and includes accessiblediscussions of a wide range of topics, from molecular biology and linguistics to insect societies.

    Focusing on four specific examples — corn, silkworms, domestic cats, and apples — she traces the histories of species that have been fundamentally altered over the centuries by the whims and needs of people.

    These unabridged essays by Carl Sagan were originally published in either popular science magazines or academic journals. This is the first time his essays have become available on audio.

    Churchland grounds the philosophy of mind in the essential ingredients of biology. She reflects with humor on how she came to harmonize science and philosophy, the mind and the brain, abstract ideals and daily life.Offering lucid explanations of the neural workings that underlie identity, she reveals how the latest research into consciousness, memory, and free will can help us reexamine enduring philosophical, ethical, and spiritual questions: What shapes our personalities? How do we account for near-death experiences? How do we make decisions? And why do we feel empathy for others? Recent scientific discoveries also provide insights into a fascinating range of real-world dilemmas—for example, whether an adolescent can be held responsible for his actions and whether a patient in a coma can be considered a self.Churchland appreciates that the brain-based understanding of the mind can unnerve even our greatest thinkers. At a conference she attended, a prominent philosopher cried out, “I hate the brain; I hate the brain!” But as Churchland shows, he need not feel this way. Accepting that our brains are the basis of who we are liberates us from the shackles of superstition. It allows us to take ourselves seriously as a product of evolved mechanisms, past experiences, and social influences. And it gives us hope that we can fix some grievous conditions, and when we cannot, we can at least understand them with compassion.

    Guaranteed to satiate your hunger for palatable and relevant scientific information, Dr. Joe Schwarcz proves that "chemical" is not necessarily synonymous with "toxic".Are there fish genes in tomatoes? Can snail-slime cream and bone broth really make your wrinkles disappear? What's the problem with sugar, resistant starch, hops in beer, microbeads, and "secret" cancer cures? Are "natural" products the key to good health? And what is "fake news" all about?Dr. Joe answers these questions and more. Cutting through the fat of story, suggestion, and social-media speculation, A Feast of Science gets to the meat of the chemical reactions that make up our daily lives.©2018 Joe Schwarcz (P)2018 Audible, Inc.

    At his death last spring, Roueche left behind seven new narratives that have never been published in book form. This book collects these works along with one earlier classic--all relating true tales of strange illnesses, rare diseases, and the brilliant minds who race to understand and conquer them.

    While it’seasy to see that stress affects health and well-being, or that your blood pressure rises when you’re angry, cutting-edge research shows that the mind-body connection goes much further.Numerous studies on the brain’s interaction with the body demonstrate that health is directly affected by our social environments, socioeconomic status, culture, behaviors, relationships, psychological states, and habits of mind, among many factors. Current mind-body science reveals facts such as these: As few as eight weeks of mindfulness meditation can meaningfully boost your immune system. Extreme stress and low social support increase the risk of breast cancer by a factor of 9. Contact with nature is correlated with numerous positive health outcomes, including improved attention for children, reduced stress, and enhanced work performance. Chronic hostility portends calcification of the coronary arteries, even in young people. Expressive writing by patients is correlated with improved outcomes for both asthma and rheumatoid arthritis.Mind-body medicine—working in tandem with traditional medical practice—makes use of a large spectrum of psychological, physical, and behavioral treatments, drawn from many disciplines, in an approach to health care that aims to treat the whole person. It provides highly effective resources for preventing and treating a wide range of medical conditions, such as cardiovascular disease, stress, cancer, and depression—as well as for fostering the ultimate goals of health care: truly optimal and lasting physical health, and emotional and psychological well-being.A knowledge of this exciting field offers you critical understanding of the state of the art of health care and a significant new direction in medicine. But beyond valuable knowledge, a grounding in mind-body medicine gives you numerous practical, empowering tools for your own health care, as well as that of your family—tools that can make a profound difference for healthful, vibrant living.In Mind-Body Medicine: The New Science of Optimal Health, you’ll study this subject in compelling depth, with the expert guidance of Professor Jason M. Satterfield of the University of California, San Francisco. These 36 eye-opening lectures offer you a comprehensive overview of the field, providing rigorous answers to the questions of what makes us sick, what makes us well, and what we can do about it.You’ll look closely at the anatomical and biological systems through which what is “outside” in the environment gets “inside” to affect our minds and bodies. You’ll also examine recent research on subjects ranging from the impact our emotions and psychology have on health to the crucial roles that social, cultural, and behavioral factors play. And you’ll learn about effective mind-body treatments for numerous common medical conditions and diseases.Finally, you’ll finish the course with a toolbox of ideas and interventions for your personal wellness goals, empowering you to partner more effectively with your medical providers and maximize your own health.A Remarkable New Context for Health Care Professor Satterfield, a highly respected professor of clinical medicine and a specialist on the intersection of psychological factors and physical health, brings to the table his deep knowledge of mind-body science and extensive clinical experience in its application.In the course’s opening, he introduces you to the model of “biopsychosocial medicine,” which looks at the relationship between biological, psychological, and social factors in health.In studying how the biopsychosocial model is applied in modern medicine, you delve into these core subject areas:Biological pathways:You first investigate the anatomy and physiology of four biological systems through which the “outside” gets “in.” By reviewing a detailed study of the autonomic nervous system and the neuroendocrine system, discover how the brain activates the body’s two stress-response systems, and how these systems crucially affect health and well-being. Learn also about the physiology of immune function and the effects of stress on immune response and healing. Study the mechanisms of genetics as well as fascinating research indicating that your behavior can alter your genetic material, for better or worse—changes that can be passed on to future generations.Psychological factors in health: In the course of nine lectures, you look in depth at the critical ways in which psychology affects the body. Learn how negative emotional states such as anger and hostility can influence both the onset and progression of disease, and how positive emotions aid substantially in healing and wellness. Study how cognition—the ways in which we think and process our experiences—affects emotional states and behavior. Drawing from cognitive and other behavioral therapies, learn effective techniques for reshaping thinking, emotions, and behavior. Review evidence that certain personality types may be predisposed to conditions such as cardiovascular disease and depression, and learn how we can compensate for risk-carrying personality traits by working with cognitions and emotions. Investigate the neuroscience of behavior and the important effects of our behaviors on both disease and disease prevention. Look at stress as an integration of biological, cognitive, and social factors, and see how we can approach stress response and coping as a developmental skill. Social and ecological factors: You also study the important effects on health of factors such as culture, identity, socioeconomic status, social support, communities, and public health policy. Examine the studied correlations of income to health, education level to longevity, and ethnicity to susceptibility to disease, and consider how we can use this knowledge to benefit both individual and public health. Review research linking social support to health in many medical conditions, such as heart disease, cancer, and pregnancy; and do a detailed assessment to evaluate and strengthen your own social support network. Investigate how spiritual affiliations and practices have distinct physical benefits, such as reducing blood pressure, cortisol, and inflammation; improving lipid profiles and cardiovascular health; and extending life expectancy. Assess how physical environments affect health, how national and local culture impacts health-related behaviors, and how public initiatives can create healthier behaviors, environments, and communities.Tools and Strategies for Optimal WellnessBuilding on the biopsychosocial model, you study mind-body treatments for common conditions such as cardiovascular disease, stress, cancer, obesity, chronic pain, depression, anxiety, and post-traumatic stress disorder.Here, you learn about specific practices and interventions that you can use in your own health care program, such as these. Stress management: For both personal and occupational stress, learn about a spectrum of stress management approaches, from cognitive restructuring and perspective shifting to meditation, breathing techniques, relaxation training, and the learnable skill of resilience. Strategies for successful behavior change: With reference to concerns such as lifestyle change, weight management, and disease prevention, study the leading models of effective behavior change, as well as specific approaches such as the strategies of motivational interviewing, the four key elements of change, and the internal skills of self-regulation. Heart disease—prevention and treatment: Survey psychosocial interventions for heart disease, including a range of behavior change approaches, stress and emotion management, somatic quieting, social connection, and dramatic evidence that cardiac disease can be reversed through lifestyle change. Treatment of pain: Study mind-body factors in pain experience, and learn about treatments including cognitive and behavior change, acupuncture, mindfulness-based stress reduction, and biofeedback. Fatigue, headaches, insomnia: Investigate the variety of medical conditions that show no clear organic cause, such as chronic fatigue, tension headaches, and sleep disorders; and review effective psychological, physical, and behavioral approaches to treatment.Professor Satterfield’s teaching combines an extraordinary breadth of knowledge, clear and accessible explanations of the science involved, and a highly compassionate approach to patient care. He enriches the lectures with stories and case studies of patients in treatment for stress, heart conditions, insomnia, trauma, and other health challenges, showing you what mind-body medicine looks like in clinical practice and how you can integrate its lessons into your health program and daily life.With the knowledge and tools you’ll learn in Mind-Body Medicine: The New Science of Optimal Health, you can begin your own biopsychosocial assessment, identify your strengths and challenges in partnership with your medical providers, and take authentic steps toward your fullest physical and mental wellness.

    It will make you angry. It will amaze you with the courage of some of the people described in the book...The Autoimmune Epidemic is every bit as compelling as Upton Sinclair's The Jungle...It is also every bit as necessary as An Inconvenient Truth.... You will leave this book with no reservations about the veracity of the conclusions: put simply, there is no doubt that autoimmune diseases are on the rise and increasing environmental exposures of toxins and chemicals is fueling this rise. The research is sound. The conclusions unassailable.... Reading The Autoimmune Epidemic is a necessary first step. Reading The Autoimmune Epidemic is a life-altering event. It needs to be."

    And we all have stories.The bite attacks that Pamela Nagami, M.D., has chosen to write about in Bitten take place in big cities, small towns, and remote villages around the world and throughout history, locales as familiar as New York or Hollywood, or exotic as Africa, the Middle East, or Indonesia. They include a six-year-old girl who descended into weeks of extreme lassitude from a tick bite; a diabetic in the West Indies who awoke to find a rat eating two of his toes; a California man who developed "flesh-eating strep" following a penile bite; and more.With reports from medical journals, case histories, colleagues, and her own twenty-five-year career as a practicing physician and infectious diseases specialist, Pamela Nagami offers readers intrigued by infection, disease, and mesmerized by creatures in the wild a compulsively readable narrative that is entertaining, sometimes disturbing, and always engrossing.

    New findings in molecular biology challenge the gene-centered version of Darwinian theory according to which adaptation occurs only through natural selection of chance DNA variations. In Evolution in Four Dimensions, Eva Jablonka and Marion Lamb argue that there is more to heredity than genes. They trace four dimensions in evolution -- four inheritance systems that play a role in evolution: genetic, epigenetic (or non-DNA cellular transmission of traits), behavioral, and symbolic (transmission through language and other forms of symbolic communication). These systems, they argue, can all provide variations on which natural selection can act. Evolution in Four Dimensions offers a richer, more complex view of evolution than the gene-based, one-dimensional view held by many today. The new synthesis advanced by Jablonka and Lamb makes clear that induced and acquired changes also play a role in evolution. After discussing each of the four inheritance systems in detail, Jablonka and Lamb put Humpty Dumpty together again by showing how all of these systems interact. They consider how each may have originated and guided evolutionary history and they discuss the social and philosophical implications of the four-dimensional view of evolution. Each chapter ends with a dialogue in which the authors engage the contrarieties of the fictional (and skeptical) I.M., or Ifcha Mistabra -- Aramaic for the opposite conjecture -- refining their arguments against I.M.'s vigorous counterarguments. The lucid and accessible text is accompanied by artist-physician Anna Zeligowski's lively drawings, which humorously and effectively illustrate the authors' points.