The universe may be gigantic but it came from something very small, like the elementary particles. In this book, we’re going to learn about the building blocks of he universe. The science behind the birth of outer space will be made known to you. Reading can be fun, as long as you choose the right resources. Go ahead and grab a copy today!
The universe may be gigantic but it came from something very small, like the elementary particles. In this book, we're going to learn about the building blocks of he universe. The science behind the birth of outer space will be made known to you. Reading can be fun, as long as you choose the right resources. Go ahead and grab a copy today!
An accessible and visually arresting picture book about one of the universe's most mysterious particles for the youngest scientific minds Before you finish reading this sentence, trillions upon trillions of neutrinos will have passed through your body. Not sure what a neutrino is? Get an up-close-and-personal introduction in this dazzling picture book from MIT Kids Press, told in lilting rhyme from the neutrino’s point of view and filled with mind-bending, full-bleed illustrations that swirl and splash the cosmos to life. Some of the smallest bits of matter known to exist—and they exist everywhere—neutrinos are inspiring cutting-edge and Nobel Prize–winning research. Here, playful text and watercolor illustrations blended with photographs distill the concept of these mysterious particles down to its essence. “Know Your Neutrinos” end notes provide context for each spread, amplifying the science and making complex astrophysics and physics concepts approachable. This indispensable STEM title urges children to dream of contributing their own discoveries.
The new experiments underway at the Large Hadron Collider at CERN in Switzerland may significantly change our understanding of elementary particle physics and, indeed, the universe. Suitable for first-year graduate students and advanced undergraduates, this textbook provides an introduction to the field
"The Higgs boson ... is the key to understanding why mass exists and how atoms are possible. After billions of dollars and decades of effort by more than six thousand researchers at the Large Hadron Collider in Switzerland--a doorway is opening into the mind-boggling world of dark matter and beyond. Caltech physicist and acclaimed writer Sean Carroll explains both the importance of the Higgs boson and the ultimately human story behind the greatest scientific achievement of our time"--Publisher
Go on an awe-inspiring journey, unraveling the secrets of our universe from the tiniest particles to the vastness of space In this thought-provoking exploration, physicists Chris Ferrie and Geraint F. Lewis delve into the fundamental questions that have puzzled humanity for centuries. What sparked the birth of the universe? How did matter and energy come into existence? With clarity and precision, Ferrie and Lewis navigate the realms of quantum physics, relativity, and cosmology, providing accessible explanations that engage both novices and enthusiasts. Featuring a harmonious blend of scientific rigor and captivating storytelling, Where Did the Universe Come From? bridges the gap between complex concepts and everyday understanding. Readers will: Explore the origin of the universe and the fundamental forces that govern it. Dive into the mind-boggling realm of quantum mechanics and its implications on the cosmic scale. Uncover the mysteries of black holes, dark matter, and the enigmatic nature of the cosmos. Enjoy an engaging narrative that seamlessly integrates complex scientific concepts with accessible explanations. Whether you're an astrophysics enthusiast, a science student, or simply someone with a profound interest in the wonders of the universe, this comprehensive guide offers a rich tapestry of knowledge about the captivating wonders that surround us all.
From the first particles of matter and atomic building-blocks to hydrogen fusion, large galaxies and supermassive black holes, with a healthy dose of history and fun facts to glue everything together, this is your very own guide to How to Build a Universe. Using a mixture of eye-catching graphics, humour and structured narrative, in How to Build a Universe, Metro columnist Ben Gilliland explains the complex concepts surrounding the birth and development of the galaxies, without overwhelming or patronising the reader. Gilliland demonstrates how the cosmos came to be - from the formation of the first particles in the Big Bang to the development of the first stars, galaxies, planets and leading up to the present day and where the future of the universe might lie. Each chapter has an ongoing narrative, building the universe piece by piece, with graphics and fact boxes interspersed throughout.
Two leading physicists discuss the importance of the Higgs Boson, the future of particle physics, and the mysteries of the universe yet to be unraveled. On July 4, 2012, the long-sought Higgs Boson--aka "the God Particle"--was discovered at the world's largest particle accelerator, the LHC, in Geneva, Switzerland. On March 14, 2013, physicists at CERN confirmed it. This elusive subatomic particle forms a field that permeates the entire universe, creating the masses of the elementary particles that are the basic building blocks of everything in the known world--from viruses to elephants, from atoms to quasars. Starting where Nobel Laureate Leon Lederman's bestseller The God Particle left off, this incisive new book explains what's next. Lederman and Hill discuss key questions that will occupy physicists for years to come:* Why were scientists convinced that something like the "God Particle" had to exist?* What new particles, forces, and laws of physics lie beyond the "God Particle"?* What powerful new accelerators are now needed for the US to recapture a leadership role in science and to reach "beyond the God Particle," such as Fermilab's planned Project-X and the Muon Collider? Using thoughtful, witty, everyday language, the authors show how all of these intriguing questions are leading scientists ever deeper into the fabric of nature. Readers of The God Particle will not want to miss this important sequel.
