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Wall Street Journal, USA Today, and Publishers Weekly bestseller The prospect of living to 200 years old isn’t science fiction anymore. A leader in the emerging field of longevity offers his perspective on what cutting-edge breakthroughs are on the horizon, as well as the practical steps we can take now to live healthily to 100 and beyond. In The Science and Technology of Growing Young, industry investor and insider Sergey Young demystifies the longevity landscape, cutting through the hype and showing readers what they can do now to live better for longer, and offering a look into the exciting possibilities that await us. By viewing aging as a condition that can be cured, we can dramatically revolutionize the field of longevity and make it accessible for everyone. Join Sergey as he gathers insights from world-leading health entrepreneurs, scientists, doctors, and inventors, providing a comprehensive look into the future of longevity in two horizons: • The Near Horizon of Longevity identifies the technological developments that will allow us to live to 150—some of which are already in use—from AI-based diagnostics to gene editing and organ regeneration. • The Far Horizon of Longevity offers a tour of the future of age reversal, and the exciting technologies that will allow us to live healthily to 200, from Internet of Bodies to digital avatars to AI-brain integration. In a bonus chapter, Sergey also showcases 10 longevity choices that we already know and can easily implement to live to 100, distilling the science behind diet, exercise, sleep, mental health, and our environments into attainable habits and lifestyle hacks that anyone can adopt to vastly improve their lives and workplaces. Combining practical advice with an incredible overview of the brave new world to come, The Science and Technology of Growing Young redefines what it means to be human and to grow young.
My passion for watching educational YouTube videos led me to create a YouTube channel named Frentran. Amidst my hectic academic schedule at school, I started uploading videos, and I have 60 videos to my credit. On suggestion from my uncle Dr. Gibson to turn the videos into a book, I started in January 2019 to write A Preteen Speaks on Science and Technology. This book covers a wide range of important branches of science, such as astronomy, aeronautics, atomic science, thermodynamics, modern physics and computer science. The 45 topics in the book will help you to understand various scientific concepts and technological advancements. This book will make complicated topics such as higher dimensions and antimatter easy to understand. It will give you a glimpse into the wonderful world of science and technology and inspire you to learn more about it,and the pictures in the book will give you a better understanding of the topics. The book will teach you the basics of computer science and artificial intelligence which are topics that are becoming increasingly important.
In this New York Times–bestselling book, Dr. Daniel Siegel shows parents how to turn one of the most challenging developmental periods in their children’s lives into one of the most rewarding. Between the ages of twelve and twenty-four, the brain changes in important and, at times, challenging ways. In Brainstorm, Dr. Daniel Siegel busts a number of commonly held myths about adolescence—for example, that it is merely a stage of “immaturity” filled with often “crazy” behavior. According to Siegel, during adolescence we learn vital skills, such as how to leave home and enter the larger world, connect deeply with others, and safely experiment and take risks. Drawing on important new research in the field of interpersonal neurobiology, Siegel explores exciting ways in which understanding how the brain functions can improve the lives of adolescents, making their relationships more fulfilling and less lonely and distressing on both sides of the generational divide.
Here comes the future! The world’s coolest technology comes to life with fun, hands-on experiments for kids. • Test solar power with milk jugs and balloons • Understand genome technology with food coloring • Launch your own “microsatellites” into orbit These 27 terrific experiments use basic stuff from around the house and will help you understand the fascinating and potentially scary world of driverless cars, artificial intelligence, robots and androids, 3-D printing, test-tube meat, smart clothing, and more. Through cool illustrations, photos, and Sean Connolly’s clear and always-lively writing, you’ll learn what each breakthrough means, how it can improve our lives, and what its downside might be. An elevator leading into outer space? A robot that learns to think for itself? What could possibly go wrong? Attention, parents: It’s time to put the “T” in STEM! You’ve probably heard that acronym, which stands for the core subjects of Science, Technology, Engineering, and Math. And though technology can get pretty scary in our imaginations, these experiments give your kids a hands-on understanding of the principles behind the innovations—so no, they won’t be performing laser surgery on their siblings or reprogramming the GPS in your car. (But they’ll still have fun!)
For decades, politicians, businessmen and other leaders have been concerned with the quality of education, including early childhood education, in the United States. While more than 50% of the children between the ages of three and five are enrolled in preschool and kindergarten programs in the United States, no state, federal, or national standards exist for science or technology education in preschool or kindergarten programs. Knowledge about science and technology is an important requirement for all in contemporary society. An increasing number of professions require the use of scientific concepts and technological skills and society as a whole depends on scientific knowledge. Scientific and technological knowledge should be a part of every individual’s education. There are many ways to enhance young children’s scientific thinking and problem-solving skills as well as their technological abilities. The purpose of this volume is to present a critical analysis of reviews of research on science and technology education in early childhood education. The first part of the volume includes contributions by leading scholars in science, while the second part includes contributions by leading scholars in technology.
Finalist for the 2011 Pulitzer Prize in General Nonfiction: “Nicholas Carr has written a Silent Spring for the literary mind.”—Michael Agger, Slate “Is Google making us stupid?” When Nicholas Carr posed that question, in a celebrated Atlantic Monthly cover story, he tapped into a well of anxiety about how the Internet is changing us. He also crystallized one of the most important debates of our time: As we enjoy the Net’s bounties, are we sacrificing our ability to read and think deeply? Now, Carr expands his argument into the most compelling exploration of the Internet’s intellectual and cultural consequences yet published. As he describes how human thought has been shaped through the centuries by “tools of the mind”—from the alphabet to maps, to the printing press, the clock, and the computer—Carr interweaves a fascinating account of recent discoveries in neuroscience by such pioneers as Michael Merzenich and Eric Kandel. Our brains, the historical and scientific evidence reveals, change in response to our experiences. The technologies we use to find, store, and share information can literally reroute our neural pathways. Building on the insights of thinkers from Plato to McLuhan, Carr makes a convincing case that every information technology carries an intellectual ethic—a set of assumptions about the nature of knowledge and intelligence. He explains how the printed book served to focus our attention, promoting deep and creative thought. In stark contrast, the Internet encourages the rapid, distracted sampling of small bits of information from many sources. Its ethic is that of the industrialist, an ethic of speed and efficiency, of optimized production and consumption—and now the Net is remaking us in its own image. We are becoming ever more adept at scanning and skimming, but what we are losing is our capacity for concentration, contemplation, and reflection. Part intellectual history, part popular science, and part cultural criticism, The Shallows sparkles with memorable vignettes—Friedrich Nietzsche wrestling with a typewriter, Sigmund Freud dissecting the brains of sea creatures, Nathaniel Hawthorne contemplating the thunderous approach of a steam locomotive—even as it plumbs profound questions about the state of our modern psyche. This is a book that will forever alter the way we think about media and our minds.
Inquiry into Math, Science and Technology for Teaching Young Children uses current theory as foundation for the rich and varied math and science curriculum in preschool and kindergarten. The curriculum in this text easily embraces developmentally appropriate practice, emergent curriculum, Reggio Emilia and the Project Approach. Students can connect the rich math and science curriculum with the national standards in math and science plus the NAEYC Early Childhood Professional Preparation Standards. By using the ways we know children learn best, students are guided to develop their own curriculum for children while incorporating the national standards. The text guides early childhood students to inquire how children learn by capturing the innate curiosity and emerging thinking skills of young children. The writing of this text invites students to explore math and science inquiry themselves, to engage in the curiosity and innovative thinking of young children, and become immersed in their new concept of teaching through experiencing children's learning.
In the evolution of science and technology, laws governing exceptional creativity and innovation have yet to be discovered. In his influential study The Structure of Scientific Revolutions, the historian Thomas Kuhn noted that the final stage in a scientific breakthrough such as Albert Einstein’s theory of relativity—the most crucial step—was “inscrutable.” The same is still true half a century later. Yet, there has been considerable progress in understanding many stages and facets of exceptional creativity and innovation. In Exceptional Creativity in Science and Technology, editor Andrew Robinson gathers diverse contributors to explore this progress. This new collection arises from a symposium with the same title held at the Institute for Advanced Study (IAS) in Princeton. Organized by the John Templeton Foundation, the symposium had the late distinguished doctor and geneticist Baruch S. Blumberg as its chair. At the same time, its IAS host was the well-known physicist Freeman J. Dyson—both of whom have contributed chapters to the book. In addition to scientists, engineers, and an inventor, the book’s fifteen contributors include an economist, entrepreneurs, historians, and sociologists, all working at leading institutions, including Bell Laboratories, Microsoft Research, Oxford University, Princeton University, and Stanford University. Each contributor brings a unique perspective to the relationships between exceptional scientific creativity and innovation by individuals and institutions. The diverse list of disciplines covered, the high-profile contributors (including two Nobel laureates), and their fascinating insights into this overarching question—how exactly do we make breakthroughs?—will make this collection of interest to anyone involved with the creative process in any context. Still, it will especially appeal to readers in scientific and technological fields.
Stand back! Genius at work! Encase your little bother in a giant soap bubble. Drop mentos into a bottle of diet soda and stand back as a geyser erupts. Launch a rocket made from a film canister. Here are 64 amazing experiments that snap, crackle, pop, ooze, crash, boom, and stink. Giant air cannons. Home-made lightning. Marshmallows on steroids. Matchbox microphones. There’s even an introduction to alchemy. (Not sure what that is? Think “medieval wizard.”) None of the experiments requires special training, and all use stuff found in the kitchen or in the garden shed. You’d be irresponsible not to try them. ATTENTION, PARENTS: Yes, your kids may need your help with a few experiments. And yes, sometimes it may get a tad messy. But it’s not pure mayhem. The balloon rocket whizzing through the garden? It demonstrates Newton’s Third Law of Motion. That chunk of potato launched across the kitchen from a tube? Welcome to Boyle’s Law. Every experiment demonstrated real science, at its most memorable.
With a visual approach to the STEM subjects, this book makes science easy to understand and shows kids how things work. From molecules and magnetism to rockets and radio waves, How to Be Good at Science, Technology, and Engineering makes complex scientific concepts simple to grasp. Dynamic, visual explanations break down even the trickiest of topics into small steps. Find out how a hot-air balloon rises, how erosion flattens mountains, how light waves zip through space, and how the human eye sees colors. Cool illustrations show the application of science in the real world: see how microchips, tractors, and suspension bridges work. "Try it out" boxes suggest ways children can see the science for themselves. Hands-on projects feature fun experiments to try at home or school: polish up old coins in vinegar, make an erupting volcano with baking soda, learn about different types of solutions, and more. With STEM (science, technology, engineering, and math) subjects ever more important in today's technological world, here is the perfect book to inspire and educate kids and prepare them for the future. All core curriculum areas of science are covered, including physics, biology, chemistry, earth science, and space science.