In this course, The Great Courses partners with the Smithsonian - one of the world's most storied and exceptional educational institutions - to examine the extraordinary events of this period and uncover the far-reaching impact of this incredible revolution. Over the course of 36 thought-provoking lectures, longtime Great Courses favorite Professor Allitt introduces you to the inventors, businessmen, and workers responsible for transforming virtually every aspect of our lives and fueling one of the greatest periods of innovation in human history. The technological achievements of this era are nothing short of astonishing. Thanks to inventions such as the steam engine and processes such as large-scale iron smelting, industrial entrepreneurs were able to mechanize labor, which allowed for a host of new efficiencies such as division of labor, mass production, and global distribution. You'll discover the science behind some of the most astounding inventions in modern history, including the spinning jenny, the incandescent light bulb, and the computer processor. You'll learn how these inventions came about and consider what effects these technologies had on every aspect of human life. Get an inside look at the history of industrial innovation and explore the lives of engineers, inventors, architects, and designers responsible for changing the world - as well as ordinary workers who lost their livelihoods to new technologies and suffered from unsafe working conditions. The story of the Industrial Revolution is complex, and these lectures will leave you with a new appreciation for the amazing human achievements all around us.

    . . . Readers will never again look into the night sky the same way.” —MICHAEL SHERMER, author of The Believing Brain on Parallax: The Race to Measure the CosmosIn 1930, Edwin Hubble announced the greatest discovery in the history of astronomy since Galileo first turned a telescope to the heavens. The galaxies, previously believed to float serenely in the void, are in fact hurtling apart at an incredible speed; the universe is expanding. This stunning discovery was the culmination of a decades-long arc of scientific and technical advancement. In its shadow lies an untold, yet equally fascinating, backstory whose cast of characters illuminates the gritty, hard-won nature of scientific progress.The path to a broader mode of cosmic observation was blazed by a cadre of 19th-century amateur astronomers and inventors, galvanized by the advent of photography, spectral analysis, and innovative technology to create the entirely new field of astrophysics. From William Bond, who turned his home into a functional observatory, to John and Henry Draper, a father and son team who were trailblazers of astrophotography and spectroscopy, to geniuses of invention such as Léon Foucault, and George Hale, who founded the Mount Wilson Observatory, Hirshfeld reveals the incredible stories—and the ambitious dreamers—behind the birth of modern astronomy.Alan Hirshfeld, Professor of Physics at the University of Massachusetts Dartmouth and an Associate of the Harvard College Observatory, is the author of Parallax: The Race to Measure the Cosmos, The Electric Life of Michael Faraday, and Eureka Man: The Life and Legacy of Archimedes.

    The lectures lead a startling voyage into the human mind, explaining not only how the various aspects of your memory operate, but the impact memory has on your daily experience of life.The various memory systems provide the continuity of consciousness that allows the concept of "you" to make sense, creating the ongoing narrative that makes your life truly yours. Without those systems and the overall experience of memory they make possible, you would have no context for the most crucial decisions of your life. You would have to make—without the benefit of experience and knowledge—the decisions that determine not only your quality of life, but your very survival. And your ability to learn, or even to form the personality that makes you unique, would similarly be set adrift.Course Lecture Titles24 Lectures, 30 minutes per lecture 1.Memory Is a PartyUsing the metaphor of a party whose “guests” include the different components of the complex interactions that make up memory, Professor Joordens introduces you to several kinds of memory—including episodic, semantic, and procedural—to arrive at an initial understanding of the variety of processes at work in human “memory.”2. The Ancient “Art of Memory”Techniques to embed and retrieve memories more easily—so-called mnemonic strategies—date back at least to classical Greece. See how one such technique—the Method of Loci—can help improve the episodic memory you depend on to recall a group of items such as grocery or to-do lists.3. Rote Memorization and a Science of ForgettingIs a mnemonic strategy always the most useful? Examine rote memorization and how it differs from mnemonics. Also, get an introduction to the work of Hermann Ebbinghaus, whose 19th-century experiments in remembering and forgetting marked the first scientific examination of memory.4. Sensory Memory—Brief Traces of the PastBegin a deeper discussion of the different kinds of memory, beginning with sensory memory and how its brief retentive power lets you switch from one stimulus to another—and even gives you your sense of “the present moment.” Here, the focus is on iconic (or visual) memory and its auditory counterpart, echoic memory.5. The Conveyor Belt of Working MemoryPlunge into the mental processes that allow you to work with information, often with the goal of solving a problem. You learn that these processes can also be used to keep information briefly “in mind,” though they require effort and are prone to interference.6. Encoding—Our Gateway into Long-Term MemoryHow does information make its way from your temporary working memory into long-term memory so you can access it again when you need it? This introduction to encoding explains the process and offers useful tips for improving your own recall.7. Episodic and Semantic Long-Term MemoryStrengthen your grasp of how these two key memory systems function. You explore the relationship between them with analogies that range from the job requirements of London taxi drivers to the famed “holo-deck” of the Star Trek television series.8. The Secret Passage—Implicit MemoryEncounter still another category of memory—a way in which your experiences can enter long-term memory without the kind of “effortful encoding” discussed earlier. You learn why this sort of memory creation is vitally important, yet also unreliable as a substitute for conscious effort.9. From Procedural Memory to HabitIn this lecture, you see that your memory for procedures is useful not only in the “muscle memory” of physical skills, but also in cognitive processes. Also, learn about constructivist learning, in which the explicit structure of a procedure—which is usually taught verbally—instead is learned implicitly during exploratory practice.10. When Memory Systems Battle—Habits vs. GoalsWhat happens when implicit or procedural memories become so powerful they seize control? In this examination of the tenacity of habits, learn how and why habits are formed and what steps might be useful in changing them, or at least regaining control.11. Sleep and the Consolidation of MemoriesDoes sleep play a role in strengthening memories of your experiences during the day? Gain a sense of the latest research about a subject that is difficult to study as you explore the relationship between sleep and memory, including the possible link between specific sleep stages and specific kinds of memory.12. Infant and Early Childhood MemoryHow does the maturation of memory fit into a child’s overall brain development? Gain invaluable and surprising insights into the month-by-month and year-by-year development of a child’s capacity for memory, beginning in the womb and continuing on with its dramatic development after entry into the world.13. Animal Cognition and MemoryDoes an elephant really never forget? Expand your study of memory to investigate the extent to which the mysterious abilities of humans may also exist in animals and, if so, how they might differ from our own.14. Mapping Memory in the BrainAlmost two decades since its revolutionary appearance, fMRI—functional magnetic resonance imaging—is allowing researchers to watch the living human brain at work, with no harm or discomfort to the subject. Explore what happens in several areas of the brain as memories are created or retrieved.15. Neural Network ModelsCan computer models mimic the operations of the human brain? Examine the use of neural network modeling, in which biologically inspired models posited by researchers in cognitive neuroscience are advancing our understanding of just how those operations take place.16. Learning from Brain Damage and AmnesiasLeave the world of computers for that of neuropsychology as you focus on the life situations of several patients who have suffered some form of brain injury. You learn how damage to different areas of the brain can have dramatically different impacts on memory and how these patients experience the world.17. The Many Challenges of Alzheimer’s DiseaseIn a lecture that explores one of our most frightening diseases from both the caregiver’s and sufferer’s perspectives, learn how Alzheimer’s progresses, how that progression may be forestalled, and ways in which technology may be able to help through the emerging field of “cognitive prosthetics.”18. That Powerful Glow of Warm FamiliarityWhy does something familiar to us actually feel that way? Discover the sources of familiarity as you are introduced to the concepts of perceptual fluency and prototypes, and explore some surprising ways that those feelings of familiarity can trump other considerations.19. Déjà Vu and the Illusion of MemoryIs déjà vu simply an illusion of memory? If so, can we learn more about memory by trying to understand how this common phenomenon comes about? Examine some of the theories that have 20. Recovered Memories or False Memories?Is episodic memory subject to the same pitfalls as misattributed feelings of familiarity? Can we “remember” things that never took place with the same intensity and certainty as those that did? Gain new insights into what is at stake when long-forgotten “memories” resurface.21. Mind the Gaps! Memory as ReconstructionMetaphors for memory usually reference information storehouses of some kind, such as library stacks or computer hard drives, from which episodic memories are “retrieved.” Learn about the extent to which we actually construct our memories anew each time we summon them and how this explains common memory errors.22. How We Choose What's Important to RememberDoes our brain always make decisions for us about which aspects of our experience to encode for later recall, or can we influence that process ourselves? Learn potentially powerful techniques for influencing the shape of future memories.23. Aging, Memory, and Cognitive TransitionApply a reality check to the popularly held belief that memory naturally declines as we age. Learn what happened when a researcher corrected for the age-related variables long-ignored by traditional testers—and what conclusions we can draw about what lies ahead for us as we grow older.24. The Monster at the End of the BookContemplate the significance of what you’ve learned, with special attention to the common question of whether you can improve your episodic memory—remembering what you want to recall, forgetting what you’d rather not, and making choices about how to achieve a balance.

    Breaking down the symbols themselves, they pose a series of questions: What is energy? What is mass? What has the speed of light got to do with energy and mass? In answering these questions, they take us to the site of one of the largest scientific experiments ever conducted. Lying beneath the city of Geneva, straddling the Franco-Swiss boarder, is a 27 km particle accelerator, known as the Large Hadron Collider. Using this gigantic machine—which can recreate conditions in the early Universe fractions of a second after the Big Bang—Cox and Forshaw will describe the current theory behind the origin of mass.Alongside questions of energy and mass, they will consider the third, and perhaps, most intriguing element of the equation: 'c' - or the speed of light. Why is it that the speed of light is the exchange rate? Answering this question is at the heart of the investigation as the authors demonstrate how, in order to truly understand why E=mc2, we first must understand why we must move forward in time and not backwards and how objects in our 3-dimensional world actually move in 4-dimensional space-time. In other words, how the very fabric of our world is constructed. A collaboration between two of the youngest professors in the UK, Why Does E=mc2? promises to be one of the most exciting and accessible explanations of the theory of relativity in recent years.

    Our emotions, according to a recent theory, are imbued with intelligence, and a person's emotional repertoire is not a mattter of fate but a matter of emotional integrity.Parts 1 and 2 in separate containers.12 audiocassettes (720 min.) : analog, stereo, Dolby-processed + 2 course guidebooks.Contents:Lecture 1. Emotions as engagements with the world.lecture 2. The wrath of Achilles.lecture 3. It's good to be afraid.lecture 4. Lessons of love: Plato's Symposium.lecture 5. We are not alone: compassion and empathy.lecture 6. Noble? Or deadly sin: pride and shame --lecture 7. Nasty: Iago's envy, Othello's jealousy --lecture 8. Nastier: resentment and vengeance --lecture 9. A death in the family: the logic of grief --lecture 10: James and the bear: emotions and feelings --lecture 11. Freud's catharsis: the hydraulic model --lecture 12. Are emotions "in" the mind? --lecture 13. How emotions are intelligent --lecture 14. Emotions as judgments --lecture 15. Beyond boohoo and hooray --lecture 16. Emotions are rational --lecture 17. Emotions and responsibility --lecture 18. Emotions in ethics --lecture 19. Emotions and the self --lecture 20. What is emotional experience? --lecture 21. Emotions across cultures: universals --lecture 22. Emotions across cultures: differences --lecture 23. Laughter and music --lecture 24. Happiness and spirituality.

    Why do we have bad moods? Why are we capable of having such strange and vivid dreams? How can metaphors and symbols in our language hold such a powerful sway on our thoughts and actions?As we learn more about the mechanisms of human behavior through evolutionary biology, neuroscience, anthropology, psychology, sociology, and other related fields, we're discovering just how intriguing the human species is. And while scientists are continually uncovering deep similarities between our behavior and that of other animals, they're also finding a wealth of insights into everything that makes us unique from any other species on Earth.Join acclaimed neurobiologist and award-winning Professor Robert Sapolsky of Stanford University for a surprising, amusing, and undeniably fascinating study of what makes you you. Being Human: Life Lessons from the Frontiers of Science is a 12-lecture course that takes you to the front lines of scientific research and offers you a new perspective on the supposedly quirky nature of being ourselves. Thought-provoking, witty, and sometimes myth-shattering, this course is sure to have you thinking about, observing, and even appreciating your own life in novel ways.

    And, although novels and short stories built the foundations of science fiction, film and television have emerged as equally powerful, experimental, and enjoyable ways to experience the genre. Even as far back as the silent era, films like Fritz Lang’s Metropolis have used science fiction to tell stories that explore many facets of human experience.In Sci-Phi: Science Fiction as Philosophy, Professor of Philosophy David Kyle Johnson of King’s College takes you on a 24-lecture exploration of the final frontiers of philosophy across several decades of science fiction in film and television. From big-budget blockbusters to television series featuring aliens in rubber masks, Professor Johnson finds food for philosophical thought in a wide range of stories. By looking at serious questions through astonishing tales and astounding technologies, you will see how science fiction allows us to consider immense, vital—and sometimes controversial—ideas with a rare combination of engagement and critical distance.The Future Is NowScience fiction is often concerned with the future, being used not only as a tool of prediction—humans are notoriously bad at accurately predicting the future—but also as one of extrapolation and interrogation. Rather than simply asking what the future will look like, the futuristic visions of sci-fi TV, like Star Trek, Firefly, and even the animated comedy Futurama, offer compelling statements about humanity’s hopes, dreams, and fears. We can, therefore, use fictionalized futures to better understand today’s world.Setting a story in the future—or in an alternate reality, or on a faraway planet—also allows sci-fi creators to open up the realm of possibility beyond what our current world offers, while also looking at very real scientific possibilities. As you look at sci-fi films like Arrival and Interstellar, Professor Johnson highlights the kinds of issues worth considering if contact with extraterrestrial life or time travel became part of our real-life experience. And even if these experiences remain in the realm of fiction, considering them still provides insight into important philosophical questions. Indeed, throughout the lectures of Sci-Phi, you will ponder many questions that have concerned philosophers for centuries, including:Do humans truly have free will?Could machines one day be conscious? Or be sentient?Could we actually be living in a simulated world?How will humanity confront a future of diminished resources and advancing technology?Are science and religion compatible?When, if ever, is war justified?How do we know what information to trust and what to dismiss?Exploring Reality through FictionStaples of science fiction like time travel, alternate universes, and extraterrestrial life are endlessly fascinating ideas to explore. Yet, despite the insights they can give us, they may not seem very relevant to everyday life. Even our conception of reality—what is real and what isn’t—can have little bearing on the more mundane aspects of living from day to day. But science fiction, for all its futurism and outlandish flourishes, is not limited to these theoretical concepts; it is also a window into crucial discussions about the here and now, questions concerning ethics, power, religion, tolerance, social justice, politics, and the many practical dimensions of living in a world that is constantly changing and forever presenting humans with fresh new dilemmas to solve. And by removing us from reality, sci-fi can also remove our biases and make us see such issues anew.Indeed, as Professor Johnson makes clear, stories of simulated worlds and artificial intelligence can seem far-fetched, but they actually offer valuable insights into social and ethical issues that may be more immediate and relevant than they first appear. By looking at them through fiction, we can take a step back and get a clearer picture of the larger implications. For instance, by looking at characters like Commander Data in Star Trek: The Next Generation or the Cylons in Battlestar Galactica, we are forced to wonder: If we create artificial intelligence that achieves true sentience, how will we treat these man-made beings? Will we repeat the sins of the past by enslaving them or will we embrace them as our equals? If we are ever able to re-create a convincing version of the world via computers, as films like The Matrix and The Thirteenth Floor suggest, do the lives lived in those simulations mean less than those in the “real” world? The answers to these questions—and many others—speak volumes about human values and, given our ever-evolving technology, may require answers sooner rather than later.You may be surprised to see how often a science fiction story can “trick” you into thinking about questions and concepts you may have never considered. Shows like The Twilight Zone and Black Mirror overtly present questions and issues for audiences to ponder. However, while other films and television shows may seem to focus more on the adventure and entertainment value of science fiction, they still often have deep philosophical dimensions. Consider the long-running British TV series Doctor Who. A beloved icon of science fiction, the show has always been framed as simply the exciting weekly adventures of a time-traveling alien; yet, throughout its decades on television, it has explored issues of autonomy, sentience, pacifism, colonialism, racism, grief, morality, and much more.A Unique View of PhilosophyWhile each lecture of Sci-Phi focuses on a few key films or television episodes, you will also explore dozens of other movies and TV episodes along the way. Likewise, each philosophical concept you explore opens the door to further discovery. Throughout the lectures, you will be introduced to the ideas of great thinkers like Descartes, Hobbes, Locke, Marx, Nietzsche, Sartre, Turing, Baudrillard, and many others; and through these ideas, you will better understand the different ways philosophy examines the big questions, from metaphysics and epistemology to existentialism and ethics.Fans of the genre will find their experience of sci-fi stories enriched by layers of philosophical inquiry that reveal each story to be much more than just entertainment. Similarly, those who are looking for a thrilling and accessible introduction to philosophy will be equally rewarded by Professor Johnson’s breadth of knowledge, as well as his deep and abiding love for both science fiction storytelling and philosophical exploration. As you engage with philosophy by way of sci-fi stories for screens both large and small, it is important to keep in mind that Professor Johnson will not shy away from revealing key plot points in many of the stories he explores throughout the lectures; so, although it is not required, watching the films and TV episodes at the heart of each lecture is recommended. Presented as a one-on-one conversation and enlivened by fun visual references to many of the stories you will encounter, Sci-Phi: Science Fiction as Philosophy is a philosophy course unlike any other.Whether telling stories of far-flung futures or investigating the here and now, science fiction is an invaluable source of intellectual and imaginative exploration. From the genre-defining classics like Star Wars, Doctor Who, 2001: A Space Odyssey, and The Twilight Zone to a new wave of speculative tales like Transcendence, Snowpiercer, Westworld, and The Hunger Games, sci-fi stories offer a uniquely engaging and incisive way to ask serious questions about the world we live in, even when those stories are set in a galaxy far, far away. Philosophy is the search for truth. Sometimes that truth is best revealed through fiction.

    Our Big Bang, our distant future, parallel worlds, the sub-atomic and intergalactic - none of them are what they seem. But there is a way to understand this immense strangeness - mathematics. Seeking an answer to the fundamental puzzle of why our universe seems so mathematical, Tegmark proposes a radical idea: that our physical world not only is described by mathematics, but that it is mathematics. This may offer answers to our deepest questions: How large is reality? What is everything made of? Why is our universe the way it is?Table of ContentsPreface 1 What Is Reality? Not What It Seems • What’s the Ultimate Question? • The Journey Begins Part One: Zooming Out 2 Our Place in Space Cosmic Questions • How Big Is Space? • The Size of Earth • Distance to the Moon • Distance to the Sun and the Planets • Distance to the Stars • Distance to the Galaxies • What Is Space? 3 Our Place in TimeWhere Did Our Solar System Come From? • Where Did theGalaxies Come From? • Where Did the Mysterious MicrowavesCome From? • Where Did the Atoms Come From? 4 Our Universe by NumbersWanted: Precision Cosmology • Precision Microwave-Background Fluctuations • Precision Galaxy Clustering • The Ultimate Map of Our Universe • Where Did Our Big Bang Come From? 5 Our Cosmic Origins What’s Wrong with Our Big Bang? • How Inflation Works • The Gift That Keeps on Giving • Eternal Inflation 6 Welcome to the Multiverse The Level I Multiverse • The Level II Multiverse • Multiverse Halftime Roundup Part Two: Zooming In 7 Cosmic Legos Atomic Legos • Nuclear Legos • Particle-Physics Legos • Mathematical Legos • Photon Legos • Above the Law? • Quanta and Rainbows • Making Waves • Quantum Weirdness • The Collapse of Consensus • The Weirdness Can’t Be Confined • Quantum Confusion 8 The Level III Multiverse The Level III Multiverse • The Illusion of Randomness • Quantum Censorship • The Joys of Getting Scooped • Why Your Brain Isn’t a Quantum Computer • Subject, Object and Environment • Quantum Suicide • Quantum Immortality? • Multiverses Unified • Shifting Views: Many Worlds or Many Words? Part Three: Stepping Back 9 Internal Reality, External Reality and Consensus Reality External Reality and Internal Reality • The Truth, the Whole Truth and Nothing but the Truth • Consensus Reality • Physics: Linking External to Consensus Reality 10 Physical Reality and Mathematical Reality Math, Math Everywhere! • The Mathematical Universe Hypothesis • What Is a Mathematical Structure? 11 Is Time an Illusion? How Can Physical Reality Be Mathematical? • What Are You? • Where Are You? (And What Do You Perceive?) • When Are You? 12 The Level IV Multiverse Why I Believe in the Level IV Multiverse • Exploring the Level IV Multiverse: What’s Out There? • Implications of the Level IV Multiverse • Are We Living in a Simulation? • Relation Between the MUH, the Level IV Multiverse and Other Hypotheses •Testing the Level IV Multiverse 13 Life, Our Universe and Everything How Big Is Our Physical Reality? • The Future of Physics • The Future of Our Universe—How Will It End? • The Future of Life •The Future of You—Are You Insignificant? Acknowledgments Suggestions for Further Reading Index

    Weaving together the cosmos' history and our own in an expanding intellectual adventure story, Dark Matter and the Dinosaurs takes us from the mysteries of dark matter and our cosmic environment to the conditions for life on Earth.Sixty-six million years ago, an object the size of a city descended from space to crash into Earth, creating a cataclysm that killed off the dinosaurs, along with three-quarters of the other species on the planet. What was its origin? Randall proposes it was a comet that was dislodged from its orbit as the Solar System passed through a disk of dark matter that is embedded in the plane of the Milky Way. Her research challenges the usual assumptions about the simple nature of dark matter and demonstrates how scientists formulate and establish new ideas. In a sense, it might have been dark matter that killed the dinosaurs.With her unique and wide-ranging perspective, Randall connects dark matter to the history of the world in the broadest terms. Bringing in pop culture and social and political viewpoints, she shares with us the latest findings—established and speculative—regarding dark matter, the cosmos, the galaxy, asteroids, comets, and impacts, as well as life's development and extinctions. Randall makes clear how connected the planet is to the makeup of the Universe, but also how fragile our place in the Universe, which evolved over billions of years, might be.In this brilliant and fresh exploration of our cosmic environment, Professor Randall explains the underlying science of our world in the breathtaking tale of a Universe in which the small and the large, the visible and the hidden are intimately related. Dark Matter and the Dinosaurs illuminates the deep relationships that are critical to our world as well as the astonishing beauty of the structures and connections that surround us. It's impossible to read this book and look at either Earth or sky again in the same way.

    This era shook the foundations of the old world and marked a permanent shift for politics, religion, and society - not just for France, but for all of Europe. An account of the events alone reads like something out of a thrilling novel: France’s oppressed and hungry masses rise up against their government. In Paris, crowds storm the Bastille looking for bread and weaponry. Rumors, panic, and fear grip the nation as it faces an uncertain future. The National Assembly adopts the Declaration of the Rights of Man, the first bold step toward the invention of democratic politics and a republican state. A young Corsican named Napoleon Bonaparte stuns Europe with his military strategy and political boldness.Living the French Revolution and the Age of Napoleon is your opportunity to learn the full story of this captivating period. Taught by Dr. Suzanne M. Desan, these 48 exciting lectures give you a broad and comprehensive survey of one of the most important eras in modern history.Disclaimer: Please note that this recording may include references to supplemental texts or print references that are not essential to the program and not supplied with your purchase.©2013 The Teaching Company, LLC (P)2013 The Great Courses

    Nobody is perfect. And that includes five of the greatest scientists in history—Charles Darwin, William Thomson (Lord Kelvin), Linus Pauling, Fred Hoyle, and Albert Einstein. But the mistakes that these great luminaries made helped advance science. Indeed, as Mario Livio explains, science thrives on error, advancing when erroneous ideas are disproven.As a young scientist, Einstein tried to conceive of a way to describe the evolution of the universe at large, based on General Relativity—his theory of space, time, and gravity. Unfortunately he fell victim to a misguided notion of aesthetic simplicity. Fred Hoyle was an eminent astrophysicist who ridiculed an emerging theory about the origin of the universe that he dismissively called “The Big Bang.” The name stuck, but Hoyle was dead wrong in his opposition.They, along with Darwin (a blunder in his theory of Natural Selection), Kelvin (a blunder in his calculation of the age of the earth), and Pauling (a blunder in his model for the structure of the DNA molecule), were brilliant men and fascinating human beings. Their blunders were a necessary part of the scientific process. Collectively they helped to dramatically further our knowledge of the evolution of life, the Earth, and the universe.

    For this understandable reason, the idea has been banished from polite academic conversation. Arguing that race is more than just a social construct can get a scholar run out of town, or at least off campus, on a rail. Human evolution, the consensus view insists, ended in prehistory. Inconveniently, as Nicholas Wade argues in A Troublesome Inheritance, the consensus view cannot be right. And in fact, we know that populations have changed in the past few thousand years—to be lactose tolerant, for example, and to survive at high altitudes. Race is not a bright-line distinction; by definition it means that the more human populations are kept apart, the more they evolve their own distinct traits under the selective pressure known as Darwinian evolution. For many thousands of years, most human populations stayed where they were and grew distinct, not just in outward appearance but in deeper senses as well. Wade, the longtime journalist covering genetic advances for The New York Times, draws widely on the work of scientists who have made crucial breakthroughs in establishing the reality of recent human evolution. The most provocative claims in this book involve the genetic basis of human social habits. What we might call middle-class social traits—thrift, docility, nonviolence—have been slowly but surely inculcated genetically within agrarian societies, Wade argues. These “values” obviously had a strong cultural component, but Wade points to evidence that agrarian societies evolved away from hunter-gatherer societies in some crucial respects. Also controversial are his findings regarding the genetic basis of traits we associate with intelligence, such as literacy and numeracy, in certain ethnic populations, including the Chinese and Ashkenazi Jews. Wade believes deeply in the fundamental equality of all human peoples. He also believes that science is best served by pursuing the truth without fear, and if his mission to arrive at a coherent summa of what the new genetic science does and does not tell us about race and human history leads straight into a minefield, then so be it. This will not be the last word on the subject, but it will begin a powerful and overdue conversation.

    These 24 intriguing and enlightening lectures lay bare the inner workings of our minds – and it's all brought to you by award-winning Professor Stephen P. Hinshaw, an instructor whose training as a clinical psychologist straddles both the science of the mind and its impact on individual lives. His comprehensive and unbiased approach to this subject reveals how the science of the human mind applies to the life of our species – and to your own life as well.

    What exactly happened, such that Jesus came to be considered God?To ask this question is to delve into a fascinating, multilayered historical puzzle - one that offers a richly illuminating look into the origins of the Western worldview and the theological underpinnings of our civilization. This fundamental historical question and its complex answer speak penetratingly to the spiritual impulses, concerns, and beliefs that have played a seminal role in our world, even as they reveal the foundation of history's most global religious movement, and fresh insights into the Western world's single most influential human being.Tackling all of these matters and more, Great Courses favorite Professor Ehrman returns with the unprecedented historical inquiry of How Jesus Became God. In 24 provocative lectures, Professor Ehrman takes you deep into the process by which the divinity of Jesus was first conceived by his followers, demonstrating how this conception was refined over time to become the core of the Christian theology. A distinguished scholar of Christianity and New York Times best-selling author, Professor Ehrman develops the inquiry with meticulous research and in-depth analysis of texts. In these lectures, Ehrman reveals that the theological understanding of Jesus as God came about through a complex series of factors and events, each of which must be understood in order to grasp this most extraordinary and historically pivotal story.In the enthralling inquiry of How Jesus Became God Professor Ehrman lays bare the diverse elements that combined to produce both an astonishing true-life story and one of history's most significant developments. Join a renowned biblical scholar in grappling with this pivot.

    You learn the points of view your teachers provide, the perspectives that books offer, and the conclusions you draw yourself based on the facts you were given. Hearing different angles on historical events gives you a more insightful, more accurate, and more rewarding understanding of events – especially when a new viewpoint challenges the story you thought you knew.