%0 Book %E Bailey, J. Michael %T The Man Who Would Be Queen: The Science of Gender-Bending and Transsexualism %D 2003 %U https://nap.nationalacademies.org/catalog/10530/the-man-who-would-be-queen-the-science-of-gender %> https://nap.nationalacademies.org/catalog/10530/the-man-who-would-be-queen-the-science-of-gender %I The National Academies Press %C Washington, DC %G English %K Biography and Autobiography %P 249 %X Gay. Straight. Or lying. It's as simple and straightforward as black or white, right? Or is there a gray area, where the definitions of sex and gender become blurred or entirely refocused with the deft and practiced use of a surgeon's knife? For some, the concept of gender – the very idea we have of ourselves as either male or female beings – is neither simple nor straightforward. Written by cutting-edge researcher and sex expert J. Michael Bailey, The Man Who Would Be Queen is a frankly controversial, intensely poignant, and boldly forthright book about sex and gender. Based on his original research, Bailey's book is grounded firmly in science. But as he demonstrates, science doesn't always deliver predictable or even comfortable answers. Indeed, much of what he has to say will be sure to generate as many questions as it does answers. Are gay men genuinely more feminine than other men? And do they really prefer to be hairdressers rather than lumberjacks? Are all male transsexuals women trapped in men's bodies – or are some of them men who are just plain turned on by the idea of becoming a woman? And how much of a role do biology and genetics play in sexual orientation? But while Bailey's science is provocative, it is the portraits of the boys and men who struggle with these questions – and often with anger, fear, and hurt feelings – that will move you. You will meet Danny, an eight-year old boy whose favorite game is playing house and who yearns to dress up as a princess for Halloween. And Martin, an expert makeup artist who was plagued by inner turmoil as a youth but is now openly homosexual and has had many men as sex partners. And Kim, a strikingly sexy transsexual who still has a penis and works as a dancer and a call girl for men who like she-males while she awaits sex reassignment surgery. These and other stories make it clear that there are men – and men who become women – who want only to understand themselves and the society that makes them feel like outsiders. That there are parents, friends, and families that seek answers to confusing and complicated questions. And that there are researchers who hope one day to grasp the very nature of human sexuality. As the striking cover image – a distinctly muscular and obviously male pair of legs posed in a pair of low-heeled pumps – makes clear, the concept of gender, the very idea we have of ourselves as either male or female beings, is neither simple nor straightforward for some. %0 Book %E Morris, Richard %T The Last Sorcerers: The Path from Alchemy to the Periodic Table %@ 978-0-309-09507-5 %D 2003 %U https://nap.nationalacademies.org/catalog/10722/the-last-sorcerers-the-path-from-alchemy-to-the-periodic %> https://nap.nationalacademies.org/catalog/10722/the-last-sorcerers-the-path-from-alchemy-to-the-periodic %I The National Academies Press %C Washington, DC %G English %K Explore Science %K Biography and Autobiography %P 294 %X They started with four: earth, air, fire, and water. From these basics, they sought to understand the essential ingredients of the world. Those who could see further, those who understood that the four were just the beginning, were the last sorcerers – and the world’s first chemists. What we now call chemistry began in the fiery cauldrons of mystics and sorcerers seeking not to make a better world through science, but rather to make themselves richer through magic formulas and con games. But among these early magicians, frauds, and con artists were a few far-seeing “alchemists” who, through rigorous experimentation, transformed mysticism into science. By the 18th century the building blocks of nature, the elements of which all matter is composed, were on the verge of being discovery. Initially, it was not easy to determine whether a substance really was an element. Was water just water, plain and simple? Or could it be the sum of other (unknown and maybe unknowable) parts? And if water was made up of other substances, how could it be broken down into discreet, fundamental, and measurable components? Scientific historians generally credit the great 18th century French chemist Antoine Lavoisier with addressing these fundamental questions and ultimately modernizing the field of chemistry. Through his meticulous and precise work this chaotic new field of scientific inquiry was given order. Exacting by nature, Lavoisier painstakingly set about performing experiments that would provide lasting and verifiable proofs of various chemical theories. Unfortunately, the outspoken Lavoisier eventually lost his head in the Terror, but others would follow his lead, carefully examining, measuring, and recording their findings. As the field slowly progressed, another pioneer was to emerged almost 100 years later. Dimitri Mendeleev, an eccentric genius who cut his flowing hair and beard but once a year, sought to answer the most pressing questions that remained to chemists: Why did some elements have properties that resembled those of others? Were there certain natural groups of elements? And, if so, how many, and what elements fit into them? It was Mendeleev who finally addressed all these issues when he constructed the first Periodic Table in the late 1800s. But between and after Lavoisier and Mendeleev were a host of other colorful, brilliant scientists who made their mark on the field of chemistry. Depicting the lively careers of these scientists and their contributions while carefully deconstructing the history and the science, author Richard Morris skillfully brings it all to life. Hailed by Kirkus Reviews as a “clear and lively writer with a penchant for down-to-earth examples” Morris’s gift for explanation – and pure entertainment – is abundantly obvious. Taking a cue from the great chemists themselves, Morris has brewed up a potent combination of the alluringly obscure and the historically momentous, spiked with just the right dose of quirky and ribald detail to deliver a magical brew of history, science, and personalities. %0 Book %A National Academy of Sciences %T Biographical Memoirs: Volume 82 %@ 978-0-309-09286-9 %D 2003 %U https://nap.nationalacademies.org/catalog/10683/biographical-memoirs-volume-82 %> https://nap.nationalacademies.org/catalog/10683/biographical-memoirs-volume-82 %I The National Academies Press %C Washington, DC %G English %K Biography and Autobiography %P 394 %X Biographic Memoirs Volume 82 contains the biographies of deceased members of the National Academy of Sciences and bibliographies of their published works. Each biographical essay was written by a member of the Academy familiar with the professional career of the deceased. For historical and bibliographical purposes, these volumes are worth returning to time and again. %0 Book %E Corfield, Richard %T The Silent Landscape: The Scientific Voyage of HMS Challenger %D 2003 %U https://nap.nationalacademies.org/catalog/10725/the-silent-landscape-the-scientific-voyage-of-hms-challenger %> https://nap.nationalacademies.org/catalog/10725/the-silent-landscape-the-scientific-voyage-of-hms-challenger %I The National Academies Press %C Washington, DC %G English %K Explore Science %K Biography and Autobiography %P 300 %X In 1872 HMS Challenger set sail from Portsmouth, England, to map and sample the ocean floor. This marked the birth of modern oceanography. By retracing Challenger’s extraordinary voyage, we view our underwater landscape anew – focusing on what 21st century science is now able to add to this incredible story. The oceans make up more than two thirds of the Earth’s surface. But they are as mysterious for what they conceal beneath their surfaces as they are familiar for their ubiquity. Deep below the susurrus swell of waves lies an alien world that we have only begun to explore. The quest to know more about this secret domain began in earnest in the late 1800s. In 1859, Charles Darwin’s book On the Origin of Species by Means of Natural Selection set the scientific world abuzz with its radical theory of evolution, and sparked a feverish desire to know more about the workings of nature. Scientists became increasingly convinced that the ocean floor could provide proof – or refutation – of Darwin’s theory of natural selection. They believed that the ocean floor was a haven for life that had long been extinct on land and that obscure fossil evidence culled from the depths could provide us with information on species that no longer existed topside. So an expedition was specifically designed and undertaken to investigate the natural history and geology of the ocean floor. With its emphasis on locating and retrieving fossil records that would test the new theory of evolution, Challenger’s voyage was nothing less than a mission to choose between God and science. Sailing three and half years and 69,000 nautical miles through burning tropical heat waves and stupefyingly cold Antarctic seas, and suffering further privations of hunger, storms, and sometimes crushing boredom between data-collecting surveys, Challenger dredged up thousands of samples from the sea floor and mapped enormous areas of undersea terrain. The final result was nothing short of a roaring success. So extensive were their findings that it was to take the scientists 19 years to completely examine and report on all their data. The final report, published in 1895, ran to fifty volumes. Most startling of all was the revelation that the ocean was not a silent landscape that serenely reflected Earth’s past – it was a gloriously vibrant ecosystem teeming with a variety and multitude of life on a scale we could scarcely imagine from our landlocked perspective. Relying on the official documentation, logs, and journals of the ship’s company, The Silent Landscape recounts the tale of an extraordinary voyage brought to life by 21st-century science. From the endangered coral reefs of the Caribbean to the trackless depths beneath the western Pacific, The Silent Landscape takes us on an epic journey across time. %0 Book %E Derbyshire, John %T Prime Obsession: Bernhard Riemann and the Greatest Unsolved Problem in Mathematics %@ 978-0-309-51257-2 %D 2003 %U https://nap.nationalacademies.org/catalog/10532/prime-obsession-bernhard-riemann-and-the-greatest-unsolved-problem-in %> https://nap.nationalacademies.org/catalog/10532/prime-obsession-bernhard-riemann-and-the-greatest-unsolved-problem-in %I The National Academies Press %C Washington, DC %G English %K Explore Science %K %K Math, Chemistry, and Physics %K Surveys and Statistics %P 446 %X In August 1859 Bernhard Riemann, a little-known 32-year old mathematician, presented a paper to the Berlin Academy titled: "On the Number of Prime Numbers Less Than a Given Quantity." In the middle of that paper, Riemann made an incidental remark — a guess, a hypothesis. What he tossed out to the assembled mathematicians that day has proven to be almost cruelly compelling to countless scholars in the ensuing years. Today, after 150 years of careful research and exhaustive study, the question remains. Is the hypothesis true or false? Riemann's basic inquiry, the primary topic of his paper, concerned a straightforward but nevertheless important matter of arithmetic — defining a precise formula to track and identify the occurrence of prime numbers. But it is that incidental remark — the Riemann Hypothesis — that is the truly astonishing legacy of his 1859 paper. Because Riemann was able to see beyond the pattern of the primes to discern traces of something mysterious and mathematically elegant shrouded in the shadows — subtle variations in the distribution of those prime numbers. Brilliant for its clarity, astounding for its potential consequences, the Hypothesis took on enormous importance in mathematics. Indeed, the successful solution to this puzzle would herald a revolution in prime number theory. Proving or disproving it became the greatest challenge of the age. It has become clear that the Riemann Hypothesis, whose resolution seems to hang tantalizingly just beyond our grasp, holds the key to a variety of scientific and mathematical investigations. The making and breaking of modern codes, which depend on the properties of the prime numbers, have roots in the Hypothesis. In a series of extraordinary developments during the 1970s, it emerged that even the physics of the atomic nucleus is connected in ways not yet fully understood to this strange conundrum. Hunting down the solution to the Riemann Hypothesis has become an obsession for many — the veritable "great white whale" of mathematical research. Yet despite determined efforts by generations of mathematicians, the Riemann Hypothesis defies resolution. Alternating passages of extraordinarily lucid mathematical exposition with chapters of elegantly composed biography and history, Prime Obsession is a fascinating and fluent account of an epic mathematical mystery that continues to challenge and excite the world. Posited a century and a half ago, the Riemann Hypothesis is an intellectual feast for the cognoscenti and the curious alike. Not just a story of numbers and calculations, Prime Obsession is the engrossing tale of a relentless hunt for an elusive proof — and those who have been consumed by it.