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Amidst the turbulence and militancy of the 1960s and early 1970s, the Mexicano population of the dusty agricultural town of Crystal City, Texas (Cristal in Spanish), staged two electoral revolts, each time winning control of the city council and school board. The landmark city council victory in 1963 was a first for Mexican Americans in South Texas, and Cristal—the “spinach capital of the world”—became for a time the political capital of the Chicano Movement. In The Cristal Experiment, Armando Navarro presents the most comprehensive examination to date of the rise of the Chicano political movement in Cristal, its successes and conflicts (both internal and external), and its eventual decline. He looks particularly at the larger and more successful “Second Revolt” in 1970 and its aftermath up to 1981, examining the political, economic, educational, and social changes for Mexicanos that resulted. Drawing upon nearly 100 interviews, a wealth of secondary materials, and his own experiences as a political organizer in the Chicano Movement, Navarro offers a shrewd and insightful analysis not only of the events in Cristal, but also of the workings of local politics generally, the politics of community control, and the factors inherent in the American political system that lead to the self-destruction of political movements. As both a political scientist and an organizer, he outlines important lessons to be learned from what happened in Cristal and to the Chicano Movement.
Candy is more than a sugary snack. With candy, you can become a scientific detective. You can test candy for secret ingredients, peel the skin off candy corn, or float an “m” from M&M’s. You can spread candy dyes into rainbows, or pour rainbow layers of colored water. You'll learn how to turn candy into crystals, sink marshmallows, float taffy, or send soda spouting skyward. You can even make your own lightning. Candy Experiments teaches kids a new use for their candy. As children try eye-popping experiments, such as growing enormous gummy worms and turning cotton candy into slime, they’ll also be learning science. Best of all, they’ll willingly pour their candy down the drain. Candy Experiments contains 70 science experiments, 29 of which have never been previously published. Chapter themes include secret ingredients, blow it up, sink and float, squash it, and other fun experiments about color, density, and heat. The book is written for children between the ages of 7 and 10, though older and younger ages will enjoy it as well. Each experiment includes basic explanations of the relevant science, such as how cotton candy sucks up water because of capillary action, how Pixy Stix cool water because of an endothermic reaction, and how gummy worms grow enormous because of the water-entangling properties.
Crystallization is an important separation and purification process used in industries ranging from bulk commodity chemicals to specialty chemicals and pharmaceuticals. In recent years, a number of environmental applications have also come to rely on crystallization in waste treatment and recycling processes.The authors provide an introduction to the field of newcomers and a reference to those involved in the various aspects of industrial crystallization. It is a complete volume covering all aspects of industrial crystallization, including material related to both fundamentals and applications. This new edition presents detailed material on crystallization of biomolecules, precipitation, impurity-crystal interactions, solubility, and design.Provides an ideal introduction for industrial crystallization newcomers Serves as a worthwhile reference to anyone involved in the fieldCovers all aspects of industrial crystallization in a single, complete volume
Written by the leading experts in computational materials science, this handy reference concisely reviews the most important aspects of plasticity modeling: constitutive laws, phase transformations, texture methods, continuum approaches and damage mechanisms. As a result, it provides the knowledge needed to avoid failures in critical systems udner mechanical load. With its various application examples to micro- and macrostructure mechanics, this is an invaluable resource for mechanical engineers as well as for researchers wanting to improve on this method and extend its outreach.
In this New York Times bestseller, internationally renowned Japanese scientist Masaru Emoto shows how the influence of our thoughts, words and feelings on molecules of water can positively impact the earth and our personal health. This book has the potential to profoundly transform your world view. Using high-speed photography, Dr. Masaru Emoto discovered that crystals formed in frozen water reveal changes when specific, concentrated thoughts are directed toward them. He found that water from clear springs and water that has been exposed to loving words shows brilliant, complex, and colorful snowflake patterns. In contrast, polluted water, or water exposed to negative thoughts, forms incomplete, asymmetrical patterns with dull colors. The implications of this research create a new awareness of how we can positively impact the earth and our personal health.
Practically every display technology in use today relies on the flat, energy-efficient construction made possible by liquid crystals. These displays provide visually-crisp, vibrantly-colored images that a short time ago were thought only possible in science fiction. Liquid crystals are known mainly for their use in display technologies, but they also provide many diverse and useful applications: adaptive optics, electro-optical devices, films, lasers, photovoltaics, privacy windows, skin cleansers and soaps, and thermometers. The striking images of liquid crystals changing color under polarized lighting conditions are even on display in many museums and art galleries--true examples of 'science meeting art'. Although liquid crystals provide us with visually stunning displays, fascinating applications, and are a rich and fruitful source of interdisciplinary research, their full potential may yet remain untapped.
The much-anticipated follow-up to the E. B. White Award-winning picture book If I Built a Car In If I Built a Car, imaginative Jack dreamed up a whimsical fantasy ride that could do just about anything. Now he's back and ready to build the house of his dreams, complete with a racetrack, flying room, and gigantic slide. Jack's limitless creativity and infectious enthusiasm will inspire budding young inventors to imagine their own fantastical designs. Chris Van Dusen's vibrant illustrations marry retro appeal with futuristic style as he, once again, gives readers a delightfully rhyming text that absolutely begs to be read aloud.
Texas, for years, was a one-party state controlled by white democrats. In 1962, a young eighteen-year-old heard the first rumblings of Chicano community organization in the barrios of Cristal. The rumor in the town was that five Mexican Americans were going to run for all five seats on the city council. But first, poor citizens had to find a way to pay the $1.75 poll tax. Money had to be raised—through bake sales of tamales, cake walks, and dances. So began the political activism of José Angel Gutiérrez. Gutiérrez's autobiography, The Making of a Chicano Militant, is the first insider's view of the important political and social events within the Mexican American communities in South Texas during the 1960s and 1970s. A controversial and dynamic political figure during the height of the Chicano movement, Gutiérrez offers an absorbing personal account of his life at the forefront of the Mexican-American civil rights movement—first as a Chicano and then as a militant. Gutiérrez traces the racial, ethnic, economic, and social prejudices facing Chicanos with powerful scenes from his own life: his first summer job as a tortilla maker at the age of eleven, his racially motivated kidnapping as a teenager, and his coming of age in the face of discrimination as a radical organizer in college and graduate school. When Gutiérrez finally returned to Cristal, he helped form the Mexican American Youth Organization and, subsequently the Raza Unida Party to confront issues of ethnic intolerance in his community. His story is soon to be a classic in the developing literature of Mexican American leaders.
"Despite substantial, cross-disciplinary interest in the subject as a scientific case study, surprisingly little has been written on the science of snowflakes and their formation. For materials scientists, snowflakes constitute archetypal examples of crystal growth; for chemists, the site of complex molecular dynamics at the ice surface. Physicists can learn from snowflake symmetry and self-assembly; geologists study snow as mineral crystals; and biologists can even gain insight into the creation of shape and order in organisms. In the humble snowflake are condensed many of the processes-many of them still not fully understood-that govern the organization of classical systems at all levels of the natural world. This book by Kenneth Libbrecht-inarguably the world's foremost expert on the subject-will be the authoritative text on the science of snow crystals. It will cover all of the physical processes that govern the life of a snowflake, including how snowflakes grow and why they have the shapes they do. It will also outline techniques for creating and experimenting with snow crystals, both with computer models and in the lab. Featuring hundreds of color illustrations, the book will be comprehensive and is sure to become definitive resource for researchers for years, if not decades, to come"--
From engaging science experiments, effective role-play scenarios and useful digital technologies through to intriguing Maker spaces, colourful science fairs and community collaboration in your school, there are so many ways that you can be the spark that ignites a passion in students for understanding how the world works. This book takes you through the practical and realistic ways you can teach the kind of science that kids care about Discover how to address students' science misconceptions, teach science with limited resources and ensure primary students can work to the scientific method in fun challenges where they can explore science in meaninfgul ways they'll remember. It's time to reinvigorate your love of teaching and bring about sustained active learning. Your classroom can become a glowing example of how to engage students in STEM and a beacon for the greater community. It's not just about 'teaching'... your job is to inspire