Textiles provide a visual history of a country's culture and crafting traditions in a way few other things can accomplish. In Textiles of Southeast Asia, Dr. Robyn Maxwell provides the definitive work on Southeast Asian textiles. Traditional textiles are one of the most widely collected and important categories of Southeast Asian art. Using an extensive range of locally produced raw materials and an astonishing array of techniques--including applique, weaving, batik and embroidery--the textiles of Southeast Asia are astonishing in their versatility and originality. Textiles are used to fashion everything from everyday clothing to sacred and ceremonial costumes, shrouds and wrapping cloths, hangings, banners and ritual regalia--all of which are represented and explained in Textiles of Southeast Asia. This authoritative text focuses on the changing relationship between indigenous Southeast Asian traditions and the outside influences continuing to be brought to the area, which change the nature of the region's textile traditions. This book considers the various ways Southeast Asian textile artisans reacted over the centuries to the steady stream of new and powerful ideas and raw materials arriving from India, China, the Islamic world and Europe. A detailed and definitive resource, Textiles of Southeast Asia is a welcome addition to the field of textiles.
Textiles provide a visual history of a country's culture and crafting traditions in a way few other things can accomplish. In Textiles of Southeast Asia, Dr. Robyn Maxwell provides the definitive work on Southeast Asian textiles. Traditional textiles are one of the most widely collected and important categories of Southeast Asian art. Using an extensive range of locally produced raw materials and an astonishing array of techniques—including applique, weaving, batik and embroidery—the textiles of Southeast Asia are astonishing in their versatility and originality. Textiles are used to fashion everything from everyday clothing to sacred and ceremonial costumes, shrouds and wrapping cloths, hangings, banners and ritual regalia—all of which are represented and explained in Textiles of Southeast Asia. This authoritative text focuses on the changing relationship between indigenous Southeast Asian traditions and the outside influences continuing to be brought to the area, which change the nature of the region's textile traditions. This book considers the various ways Southeast Asian textile artisans reacted over the centuries to the steady stream of new and powerful ideas and raw materials arriving from India, China, the Islamic world and Europe. A detailed and definitive resource, Textiles of Southeast Asia is a welcome addition to the field of textiles.
Seven years ago, Dominic Maxwell destroyed Fenella’s simple, happy life with the news that her stepfather had an entire other family already. After hearing this news, Fenella’s distraught mother took her own life. Now, out of nowhere, her younger brother has been invited by the Maxwell family to Fala’isi, an island in the South Pacific. He begs Fenella to accompany him there, and she’d do anything for her dear brother…even face Dominic, the man she never wanted to see again.
Blending science, history, and biography, this book reveals the mysteries of mathematics, focusing on the life and work of three of Albert Einstein's heroes: Isaac Newton, Michael Faraday, and James Clerk Maxwell.
The author presents many of her hand crafted-quilts, with the story behind the design of each, as well as telling the story of her involvement with quilting, and philosophical reflections on the place of quilting and other handcrafts in her life.
Blending science, history, and biography, this book reveals the mysteries of mathematics, focusing on the life and work of three of Albert Einstein's heroes: Isaac Newton, Michael Faraday, and James Clerk Maxwell.
A celebration of the seemingly simple idea that allowed us to imagine the world in new dimensions—sparking both controversy and discovery. The stars of this book, vectors and tensors, are unlikely celebrities. If you ever took a physics course, the word “vector” might remind you of the mathematics needed to determine forces on an amusement park ride, a turbine, or a projectile. You might also remember that a vector is a quantity that has magnitude and (this is the key) direction. In fact, vectors are examples of tensors, which can represent even more data. It sounds simple enough—and yet, as award-winning science writer Robyn Arianrhod shows in this riveting story, the idea of a single symbol expressing more than one thing at once was millennia in the making. And without that idea, we wouldn’t have such a deep understanding of our world. Vector and tensor calculus offers an elegant language for expressing the way things behave in space and time, and Arianrhod shows how this enabled physicists and mathematicians to think in a brand-new way. These include James Clerk Maxwell when he ushered in the wireless electromagnetic age; Einstein when he predicted the curving of space-time and the existence of gravitational waves; Paul Dirac, when he created quantum field theory; and Emmy Noether, when she connected mathematical symmetry and the conservation of energy. For it turned out that it’s not just physical quantities and dimensions that vectors and tensors can represent, but other dimensions and other kinds of information, too. This is why physicists and mathematicians can speak of four-dimensional space-time and other higher-dimensional “spaces,” and why you’re likely relying on vectors or tensors whenever you use digital applications such as search engines, GPS, or your mobile phone. In exploring the evolution of vectors and tensors—and introducing the fascinating people who gave them to us—Arianrhod takes readers on an extraordinary, five-thousand-year journey through the human imagination. She shows the genius required to reimagine the world—and how a clever mathematical construct can dramatically change discovery’s direction.
Newton's explanation of the natural law of universal gravity shattered the way mankind perceived the universe, and hence it was not immediately embraced. After all, how can anyone warm to a force that cannot be seen or touched? But for two women, separated by time and space but joined in their passion for Newtonian physics, the intellectual power of that force drove them to great achievements. Brilliant, determined, and almost entirely self-taught, they dedicated their lives to explaining and disseminating Newton's discoveries. Robyn Arianrhod's Seduced by Logic tells the story of Emilie du Chatelet and Mary Somerville, who, despite living a century apart, were connected by their love for mathematics and their places at the heart of the most advanced scientific society of their age. When Newton published his revolutionary theory of gravity, in his monumental Principia of 1687, most of his Continental peers rejected it for its reliance on physical observation and mathematical insight instead of religious or metaphysical hypotheses. But the brilliant French aristocrat and intellectual Emilie du Chatelet and some of her early eighteenth-century Enlightenment colleagues--including her lover, Voltaire--realized the Principia had changed everything, marking the beginning of theoretical science as a predictive, quantitative, and secular discipline. Emilie devoted herself to furthering Newton's ideas in France, and her translation of the Principia is still the accepted French version of this groundbreaking work. Almost a century later, in Scotland, Mary Somerville taught herself mathematics and rose from genteel poverty to become a world authority on Newtonian physics. She was fêted by the famous French Newtonian, Pierre Simon Laplace, whose six-volume Celestial Mechanics was considered the greatest intellectual achievement since the Principia. Laplace's work was the basis of Mary's first book, Mechanism of the Heavens; it is a bittersweet irony that this book, written by a woman denied entry to university because of her gender, remained an advanced university astronomy text for the next century. Combining biography, history, and popular science, Seduced by Logic not only reveals the fascinating story of two incredibly talented women, but also brings to life a period of dramatic political and scientific change. With lucidity and skill, Arianrhod explains the science behind the story, and explores - through the lives of her protagonists - the intimate links between the unfolding Newtonian revolution and the development of intellectual and political liberty.
The stars of the latest book by award-winning science writer and mathematician Robyn Arianrhod are unlikely celebrities--vectors and tensors. If you took a high school physics course, the word "vector" might remind you of the mathematics needed to determine forces on an amusement park ride, say; or of cross products, a special kind of multiplication using a bespoke table and a right-hand rule. You might also remember the introductory definition of a vector as a quantity that has magnitude and (this is the key) direction. Velocity--for example, 25 miles per hour northwest--is a vector; speed, such as 25 miles per hour, is not. Put another way, a velocity vector in space contains not one number, but three-a measurement of speed along each of three dimensions. It sounds simple, in hindsight--yet, as Arianrhod shows in this intriguing story, the idea of a single symbol expressing several things at once is a sophisticated one, millennia in the making. Vectors are examples of an even more sophisticated idea, the tensor. And it's not just space that vectors and tensors can represent, but information, too. Which means that whenever you use a search engine, say, or AI bot, computer graphics, or a host of other digital applications, vectors and tensors are there somewhere in the software. As for physics, there's much more to it than velocities and simple forces! Arianrhod shows how the discovery of vectors and tensors enabled physicists and mathematicians to think brand new thoughts-such as Maxwell did when he ushered in the wireless electromagnetic age, and Einstein when he predicted the curving of four-dimensional space-time and the existence of gravitational waves. Quantum theory, too, makes fine use of these ideas. In other words, vectors and tensors have been critical not only to the way we see our universe, but also to the invention of Wi-Fi, GPS, micro-technology, and so much else that we take for granted today. In exploring the history and significance of vectors and tensors-and introducing the fascinating people who gave them to us--Arianrhod takes readers on an extraordinary, five-thousand-year journey through the human imagination. A celebration of an idea, Vector shows the genius required to imagine the world in new dimensions-and how a clever mathematical construct can direct the future of discovery"--
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.