High school & older.

    Indeed, these tiny structures inside our cells are important beyond imagining. Without mitochondria, we would have no cell suicide, no sculpting of embryonic shape, no sexes, no menopause, no aging.In this fascinating and thought-provoking book, Nick Lane brings together the latest research in this exciting field to show how our growing insight into mitochondria has shed light on how complex life evolved, why sex arose (why don't we just bud?), and why we age and die. These findings are of fundamental importance, both in understanding life on Earth, but also in controlling our own illnesses, and delaying our degeneration and death. Readers learn that two billion years ago, mitochondria were probably bacteria living independent lives and that their capture within larger cells was a turning point in the evolution of life, enabling the development of complex organisms. Lane describes how mitochondria have their own DNA and that its genes mutate much faster than those in the nucleus. This high mutation rate lies behind our aging and certain congenital diseases. The latest research suggests that mitochondria play a key role in degenerative diseases such as cancer. We also discover that mitochondrial DNA is passed down almost exclusively via the female line. That's why it has been used by some researchers to trace human ancestry daughter-to-mother, to "Mitochondrial Eve," giving us vital information about our evolutionary history.Written by Nick Lane, a rising star in popular science, Power, Sex, Suicide is the first book for general readers on the nature and function of these tiny, yet fascinating structures.

    Course Lecture Titles1. Biology and BehaviorAn Introduction 2. The Basic Cells of the Nervous System 3. How Two Neurons Communicate 4. Learning and Synaptic Plasticity 5. The Dynamics of Interacting Neurons 6. The Limbic System 7. The Autonomic Nervous System (ANS) 8. The Regulation of Hormones by the Brain 9. The Regulation of the Brain by Hormones 10. The Evolution of Behavior 11. The Evolution of BehaviorSome Examples 12. Cooperation, Competition, and Neuroeconomics 13. What Do Genes Do? Microevolution of Genes 14. What Do Genes Do? Macroevolution of Genes 15. Behavior Genetics 16. Behavior Genetics and Prenatal Environment 17. An Introduction to Ethology 18. Neuroethology 19. The Neurobiology of Aggression I 20. The Neurobiology of Aggression II 21. Hormones and Aggression 22. Early Experience and Aggression 23. Evolution, Aggression, and Cooperation 24. A Summary

    Sapolsky, America's most beloved neurobiologist/primatologist. Organized into three sections, each tackling a Big Question in natural science, Monkeyluv offers a lively exploration of the influence of genes and the environment on behavior; the social and political -- and, of course, sexual -- implications of behavioral biology; and society's shaping of the individual. From the mating rituals of prairie dogs to the practice of religion in the rain forest, the secretion of pheromones to bugs in the brain, Sapolsky brilliantly synthesizes cutting-edge scientific research with wry, erudite observations about the enormous complexity of simply being human. Thoughtful, engaging, and infused with pop-cultural insights, this collection will appeal to the inner monkey in all of us.

    Line drawings.

    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.

    Evo Devo Evolutionary Developmental Biology is the new science that has finally cracked open the box. Within the pages of his rich and riveting book, Sean B. Carroll explains how we are discovering that complex life is ironically much simpler than anyone ever expected.

    Though the process obeyed all the rules of chemistry and physics, the details of that original event pose as deep a mystery as any facing science. How did non-living chemicals become alive? While the question is (deceivingly) simple, the answers are unquestionably complex. Science inevitably plays a key role in any discussion of life's origins, dealing less with the question of why life appeared on Earth than with where, when, and how it emerged on the blasted, barren face of our primitive planet. Astrobiologist Robert Hazen has spent many years dealing with the fundamental questions of life's genesis. As an active research scientist, he is down deep in all the messy details that science has to offer on the subject, tracing the inexorable sequence of events that led to the complicated interactions of carbonbased molecules. As he takes us through the astounding process of emergence, we are witness to the first tentative steps toward life?from the unfathomable abundance of carbon biomolecules synthesized in the black vacuum of space to the surface of the Earth to deep within our planet's restless crust. We are privy to the breathtaking drama that rapidly unfolds as life prevails. The theory of emergence is poised to answer a multitude of questions?even as it raises the possibility that natural processes exist beyond what we now know, perhaps beyond what we even comprehend. Genesis tells the tale of transforming scientific advances in our quest for life's origins. Written with grace, beauty, and authority, it goes directly to the heart of who we are and why we are here.

    Anaximander, the sixth-century BC Greek philosopher, is often called the first scientist because he was the first to suggest that order in the world was due to natural forces, not supernatural ones. He is the first person known to understand that the Earth floats in space; to believe that the sun, the moon, and the stars rotate around it—seven centuries before Ptolemy; to argue that all animals came from the sea and evolved; and to posit that universal laws control all change in the world. Anaximander taught Pythagoras, who would build on Anaximander’s scientific theories by applying mathematical laws to natural phenomena.In the award-winning The First Scientist: Anaximander and His Legacy, translated here for the first time in English, Rovelli restores Anaximander to his place in the history of science by carefully reconstructing his theories from what is known to us and examining them in their historical and philosophical contexts. Rovelli demonstrates that Anaximander’s discoveries and theories were decisive influences, putting Western culture on its path toward a scientific revolution. Developing this connection, Rovelli redefines science as a continuous redrawing of our conceptual image of the world. He concludes that scientific thinking—the legacy of Anaximander—is only reliable when it constantly tests the limits of our current knowledge.

    Finding this natural basis of life has proved elusive, but in the eloquent and creative Into the Cool, Eric D. Schneider and Dorion Sagan look for answers in a surprising place: the second law of thermodynamics. This second law refers to energy's inevitable tendency to change from being concentrated in one place to becoming spread out over time. In this scientific tour de force, Schneider and Sagan show how the second law is behind evolution, ecology,economics, and even life's origin.Working from the precept that "nature abhors a gradient," Into the Cool details how complex systems emerge, enlarge, and reproduce in a world tending toward disorder. From hurricanes here to life on other worlds, from human evolution to the systems humans have created, this pervasive pull toward equilibrium governs life at its molecular base and at its peak in the elaborate structures of living complex systems. Schneider and Sagan organize their argument in a highly accessible manner, moving from descriptions of the basic physics behind energy flow to the organization of complex systems to the role of energy in life to the final section, which applies their concept of energy flow to politics, economics, and even human health.A book that needs to be grappled with by all those who wonder at the organizing principles of existence, Into the Cool will appeal to both humanists and scientists. If Charles Darwin shook the world by showing the common ancestry of all life, so Into the Cool has a similar power to disturb—and delight—by showing the common roots in energy flow of all complex, organized, and naturally functioning systems.“Whether one is considering the difference between heat and cold or between inflated prices and market values, Schneider and Sagan argue, we can apply insights from thermodynamics and entropy to understand how systems tend toward equilibrium. The result is an impressive work that ranges across disciplinary boundaries and draws from disparate literatures without blinking.”—Publishers Weekly

    The first, which describes the force of gravity, is widely known: Einstein's General Theory of Relativity. But the theory that explains everything else--the Standard Model of Elementary Particles--is virtually unknown among the general public.In The Theory of Almost Everything, Robert Oerter shows how what were once thought to be separate forces of nature were combined into a single theory by some of the most brilliant minds of the twentieth century. Rich with accessible analogies and lucid prose, The Theory of Almost Everything celebrates a heretofore unsung achievement in human knowledge--and reveals the sublime structure that underlies the world as we know it.

    The smoking World Trade Center site. The scorched cityscape of 1945 Dresden. Among the most indelible scars left by war is the destroyed landscapes, and such architectural devastation damages far more than mere buildings. Robert Bevan argues herethat shattered buildings are not merely “collateral damage,” but rather calculated acts of cultural annihilation.From Hitler’s Kristallnacht to the toppling of Saddam Hussein’s statue in the Iraq War, Bevan deftly sifts through military campaigns and their tactics throughout history, and analyzes the cultural impact and catastrophic consequences of architectural destruction. For Bevan, these actions are nothing less than cultural genocide. Ultimately, Bevan forcefully argues for the prosecution of nations that purposely flout established international treaties against destroyed architecture.A passionate and thought-provoking cri de coeur, The Destruction of Memory raises questions about the costs of war that run deeper than blood and money.“The idea of a global inheritance seems to have fallen by the wayside and lessons that should have long ago been learned are still being recklessly disregarded. This is what makes Bevan’s book relevant, even urgent: much of the destruction of which it speaks is still under way.”—Financial Times Magazine “The message of Robert Bevan’s devastating book is that war is about killing cultures, identities and memories as much as it is about killing people and occupying territory.”—Sunday Times “As Bevan’s fascinating, melancholy book shows, symbolic buildings have long been targeted in and out of war as a particular kind of mnemonic violence against those to whom they are special.”—The Guardian

    After a quarter of a century, the entire Color Series of Mentalism, all 53 effects, newly illustrated by Ton Onosaka.

    Chemistry will never be the same!

    Such a boost came in the first half of the twentieth century, when an obscure Belgian priest put his mind to deciphering the nature of the cosmos. Is the universe evolving to some unforeseen end, or is it static, as the Greeks believed? The debate has preoccupied thinkers from Heraclitus to the author of the Upanishads, from the Mayans to Einstein. The Day Without Yesterday covers the modern history of an evolving universe, and how Georges Lemaîe convinced a generation of thinkers to embrace the notion of cosmic expansion and the theory that this expansion could be traced backward to the cosmic origins, a starting point for space and time that Lemaîe called "the day without yesterday." Lemaîe's skill with mathematics and the equations of relativity enabled him to think much more broadly about cosmology than anyone else at the time, including Einstein. Lemaîe proposed the expanding model of the universe to Einstein, who rejected it. Had Einstein followed Lemaîe's thinking, he could have predicted the expansion of the universe more than a decade before it was actually discovered.

    The result is a wealth of stimulating ideas set among clear explanations drawn from a revelatory decade in biology."—Andrew H. Knoll, author of Life on a Young Planet"Thought-provoking and lucidly written. . . . The Plausibility of Life will help readers understand not just the plausibility of evolution, but its remarkable, inventive powers." —Sean Carroll, author of Endless Forms Most Beautiful: The New Science of Evo Devo“Remarkably lucid and comprehensive, this new theoretical synthesis will . . . shift the grounds for debate in the controversy surrounding organic evolution.”—Booklist (starred review)

    There are very few undergraduate textbooks available on the subject and, until now, almost none written by mathematicians. Based on a course given by the author, the goal of this book is to introduce advanced undergraduates and beginning graduate students studying the mathematics of finance to the Black-Scholes formula. The author uses a first-principles approach, developing only the minimum background necessary to justify mathematical concepts and placing mathematical developments in context. The book skillfully draws the reader toward the art of thinking mathematically and then proceeds to lay the foundations in analysis and probability theory underlying modern financial mathematics. It rigorously reveals the mathematical secrets of topics such as abstract measure theory, conditional expectations, martingales, Wiener processes, the Ito calculus, and other ingredients of the Black-Scholes formula. In explaining these topics, the author uses examples drawn from the universe of finance. The book also contains many exercises, some included to clarify simple points of exposition, others to introduce new ideas and techniques, and a few containing relatively deep mathematical results. With the modest prerequisite of a first course in calculus, the book is suitable for undergraduates and graduate students in mathematics, finance, and economics and can be read, using appropriate selections, at a number of levels.

    And it’s out there for anyone who takes the time to look up! As this engrossing popular astronomy book makes clear, you don’t need a degree in astrophysics to explore the vast reaches of outer space. All you need is curiosity and a little imagination.From Blue Moons to Black Holes is written specifically for those who have always been intrigued by or have been developing a growing interest in astronomy and space, but have had little time to explore the amazing world of exploding stars, distant galaxies, rovers on other planets, and more. The book consists of three sections: Questions and Answers, Quick Facts, and A Brief History of Lunar and Planetary Exploration.Knocke — who has often lectured at the prestigious Mount Wilson and Lowell Observatories — provides answers to the most frequently asked questions regarding astronomy, outer space, and space exploration in the Questions and Answers section. She gives simple and easy-to-understand answers to such provocative questions as: "What is a blue moon?" "Could you travel through a black hole?" "Is the North Star the brightest star in the sky?" "Is Pluto really a planet?"The Quick Facts section offers the reader an easy way to look up fascinating statistics about the moon and planets, bright stars, constellations, and more. This section also includes a guide to upcoming meteor showers and lunar and solar eclipses.A Brief History of Lunar and Planetary Exploration includes a chronological listing of every mission that has been launched to the moon and planets. By listing both the successes and failures, readers gain a better understanding of just how difficult it is to travel beyond our own planet.This generously illustrated volume will also include a color insert containing, among other pictures, beautiful images of Saturn from the Cassini spacecraft, currently in orbit around the planet. Whether read from cover to cover or used as a reference tool to search for specific answers, From Blue Moons to Black Holes will prove to be fun, accessible, and wonderfully thought provoking.