Download Free Physiology At Harvard Book in PDF and EPUB Free Download. You can read online Physiology At Harvard and write the review.

In this wide-ranging book, one of the boldest thinkers in modern neuroscience confronts an ancient philosophical problem: can we know the world as it really is? Drawing on provocative new findings about the psychophysiology of perception and judgment in both human and nonhuman primates, and also on the cultural history of science, Jean-Pierre Changeux makes a powerful case for the reality of scientific progress and argues that it forms the basis for a coherent and universal theory of human rights. On this view, belief in objective knowledge is not a mere ideological slogan or a naive confusion; it is a characteristic feature of human cognition throughout evolution, and the scientific method its most sophisticated embodiment. Seeking to reconcile science and humanism, Changeux holds that the capacity to recognize truths that are independent of subjective personal experience constitutes the foundation of a human civil society.
Molecular and Cellular Physiology of Neurons: Second Edition is a comprehensive, up-to-date introduction to essential concepts of cellular neuroscience. Emphasizing experimental approaches and recent discoveries, it provides an in-depth look at the structure and function of nerve cells, from protein receptors and synapses to the biochemical processes that drive the mammalian nervous system. Starting with the basics of electrical current flow across cell membranes, Gordon Fain covers voltage gating and receptor activation in the context of channel diversity, excitatory and inhibitory synaptic transmission, neuromodulation, and sensory transduction. Emphasizing long-term processes of synaptic potentiation and depression involved in memory, consciousness, and attention, he demonstrates how cells produce neural signals and regulate signal flow to enhance or impede cell-to-cell communication. Fain also addresses the relation of molecular and cellular mechanisms to evolving theories of neurological disease and addiction. Enhanced by more than two hundred illustrations, Molecular and Cellular Physiology of Neurons: Second Edition is intended for anyone who seeks to understand the fundamentals of nerve cell function, including undergraduate and graduate students in neuroscience, students of bioengineering and cognitive science, and practicing neuroscientists who want to deepen their knowledge of recent discoveries in molecular and cellular neurophysiology.
Can the structures that animals build--from the humble burrows of earthworms to towering termite mounds to the Great Barrier Reef--be said to live? However counterintuitive the idea might first seem, physiological ecologist Scott Turner demonstrates in this book that many animals construct and use structures to harness and control the flow of energy from their environment to their own advantage. Building on Richard Dawkins's classic, The Extended Phenotype, Turner shows why drawing the boundary of an organism's physiology at the skin of the animal is arbitrary. Since the structures animals build undoubtedly do physiological work, capturing and channeling chemical and physical energy, Turner argues that such structures are more properly regarded not as frozen behaviors but as external organs of physiology and even extensions of the animal's phenotype. By challenging dearly held assumptions, a fascinating new view of the living world is opened to us, with implications for our understanding of physiology, the environment, and the remarkable structures animals build.
In our high-speed culture, terms like "stressed-out," "Type-A personality," "biofeedback," and "relaxation response" have become commonplaces. More than ever before, we are aware of the relationship between our mental and emotional states and our physical well-being. Findings from the field of psychophysiology, which investigates the reflexive interaction between psychology and physiology, have revised our approach to illness and its prevention and treatment. We know, for example, that stress, combined with other factors, increases vulnerability to heart attack and stroke. Successful treatment must include lifestyle changes to reduce the effects of stress on the body. In this important text, Kenneth Hugdahl presents a comprehensive introduction to the history, methods, and applications of psychophysiology and explores other areas concerned with the "mind-body interface," such as psychosomatic medicine, behavioral medicine, clinical psychology, psychiatry, neuropsychology, and cognitive neuroscience. By showing how social, behavioral, cognitive, and emotional events are mirrored in physiological processes, he gives us a clearer understanding of complex cognitive processes. This book illustrates psychophysiology's importance as a research and clinical tool and highlights its many contributions to the assessment and diagnosis of physical disorders. It also provides a framework for extending psychophysiological insights to other areas of psychology and neuroscience.
Like all cellular organisms humans run on electricity. Cells work like batteries: slight imbalances of electric charge across cell membranes, caused by ions moving in and out of cells, result in sensation, movement, awareness, and thinking—the things we associate with being alive. Robert Campenot offers an accessible overview of animal electricity.
Are animals designed economically? The theory of symmorphosis predicts that the size of the parts in a system must be matched to the overall functional demand. Weibel shows how animals as different as shrews, pronghorns, dogs, goats--even humans--all develop from essentially the same blueprint by variation of design.
In 1989 Michael Bishop and Harold Varmus were awarded the Nobel Prize for their discovery that normal genes under certain conditions can cause cancer. In this book, Bishop tells us how he and Varmus made their momentous discovery. More than a lively account of the making of a brilliant scientist, How to Win the Nobel Prize is also a broader narrative combining two major and intertwined strands of medical history: the long and ongoing struggles to control infectious diseases and to find and attack the causes of cancer. Alongside his own story, that of a youthful humanist evolving into an ambivalent medical student, an accidental microbiologist, and finally a world-class researcher, Bishop gives us a fast-paced and engrossing tale of the microbe hunters. It is a narrative enlivened by vivid anecdotes about our deadliest microbial enemies--the Black Death, cholera, syphilis, tuberculosis, malaria, smallpox, HIV--and by biographical sketches of the scientists who led the fight against these scourges. Bishop then provides an introduction for nonscientists to the molecular underpinnings of cancer and concludes with an analysis of many of today's most important science-related controversies--ranging from stem cell research to the attack on evolution to scientific misconduct. How to Win the Nobel Prize affords us the pleasure of hearing about science from a brilliant practitioner who is a humanist at heart. Bishop's perspective will be valued by anyone interested in biomedical research and in the past, present, and future of the battle against cancer. Table of Contents: List of Illustrations Preface 1. The Phone Call 2. Accidental Scientist 3. People and Pestilence 4. Opening the Black Box of Cancer 5. Paradoxical Strife Notes Credits Index Reviews of this book: Despite his book's encouraging title, Bishop--who won a Nobel Prize in Physiology and Medicine in 1989--cautions that "I have not written an instruction manual for pursuit of the prize." Instead, he has written an amiable reflection on the experience of being a Nobelist, intertwined with some history and anecdotes about the award, and balanced by a wide-ranging review of his own career as an "accidental scientist"...Along the way, Bishop reflects on the history of our knowledge of microbes, cancer, the politics of funding research and present-day disenchantment with science. His main purpose in writing this book, Bishop says, is to show that "scientists are supremely human"--which he does with grace and charm. --Publishers Weekly Reviews of this book: How to Win the Nobel Prize is typical Bishop: modest, funny, insightful and offering an extremely clear and brief explanation of the basic scientific achievement that won the 1989 Nobel Prize in physiology or medicine for himself and longtime colleague, Harold Varmus, now president of the Memorial Sloan-Kettering Cancer Center. --David Perlman, San Francisco Chronicle Reviews of this book: In these pages Bishop reveals himself as a good writer blessed with enviable clarity, someone sensible and levelheaded who likes people and is enamored of his science. --John Tyler Bonner, New York Times Book Review Reviews of this book: This is a treasure...Above all, How to Win the Nobel Prize is a civilised book and a lavishly rewarding one. --Roy Herbert, New Scientist Reviews of this book: At its heart this analysis of science and the scientific world is a jewel. How to Win the Nobel Prize is an inspirational book, full of careful analysis and judgement. --John Oxford, Times Higher Education Supplement Reviews of this book: Bishop is a gifted communicator and teacher, and he sets about his task of educating scientists and the public by describing his career in science and science politics...In the end, Bishop's book provides a road map for scientists and the public to build a robust scientific community that serves our society well. --Andreas Trumpp and Daniel Kalman, Nature Cell Biology J. Michael Bishop has written his book 'to show that scientists are supremely human.' The book is also a lucid explanation of how science has been harnessed to fight the human afflictions of cancer and infectious disease. And the story ends with a wide-ranging overview of today's challenges to the scientific enterprise. Overall, a must-read for all those interested in science and scientists--even those with absolutely no interest in winning a Nobel Prize! --Bruce Alberts, President, National Academy of Sciences J. Michael Bishop is that rare scientist who is widely read in literature and poetry. Most importantly, he remembers what he reads and thinks deeply about it, as well as about all else in his rich life. The Nobel Prize he won and richly deserved, his political activism, his understanding of cancer and microbiology, his devotion to the practice of science--all these provide fodder for his writerly craft. Quite a wonderful book! --David Baltimore, Nobel Laureate and President, California Institute of Technology
This book is a concise study of the structure and function of vertebrate respiratory systems. It describes not only the individual organ systems, but also the relationship of these systems to each other and to the animal's environment. For example, the author emphasizes that a proper understanding of respiration involves a consideration of the external environment as a source of oxygen as well as the biochemistry of the cell; and, from the evolutionary point of view, that physiological changes in the respiratory and circulatory systems are dominated by the origin of the land habit. The author's approach to the subject exemplifies that trend to the amalgamation of Zoology and Physiology, which has become increasingly marked at universities and schools in recent years. This synthesis requires, broadly, a knowledge of classical comparative anatomy, ecology, evolution, physiology and biochemistry; an enormous task, but nevertheless one in which the zoologist holds a central position. This book indicates the nature of such an eclectic approach, with the animal, in its environment and its evolution, as its focal point. Covering a rapidly changing field of research the author refers to many recent views and indicates where these differ from those commonly accepted.
Thoroughly updated with all the most recent findings, this Seventh Edition guides you to the latest understanding of nutrition, energy transfer, and exercise training and their relationship to human performance. This new edition continues to provide excellent coverage of exercise physiology, uniting the topics of energy expenditure and capacity, molecular biology, physical conditioning, sports nutrition, body composition, weight control, and more. The updated full-color art program adds visual appeal and improves understanding of key topics. A companion website includes over 30 animations of key exercise physiology concepts; the full text online; a quiz bank; references; appendices; information about microscope technologies; a timeline of notable events in genetics; a list of Nobel Prizes in research related to cell and molecular biology; the scientific contributions of thirteen outstanding female scientists; an image bank; a Brownstone test generator; PowerPoint(R) lecture outlines; and image-only PowerPoint(R) slides.
Vols. for 1911-13 contain the Proceedings of the Helminothological Society of Washington, ISSN 0018-0120, 1st-15th meeting.