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This popular book introduces the ideas, terminology, and techniques of high-energy physics. Insights into the structure of matter from the atom down to the quark are made accessible to readers who have no physics background. "With hardly a mathematical formula, Ms. Schwarz clearly explains the language and much of the substance of elementary particle physics." -FROM THE INTRODUCTION BY STANLEY GLASHOW, HARVARD UNIVERSITY, NOBEL LAUREATE
A Tour of the Subatomic Zoo is a brief and ambitious expedition into the remarkably simple ingredients of all the wonders of nature. Tour guide, Professor Cindy Schwarz clearly explains the language and substance of elementary particle physics for the 99% of us who are not physicists. With hardly a mathematical formula, views of matter from the atom to the quark are discussed in a form that an interested person with no physics background can easily understand. It is a look not only into some of the most profound insights of our time, but a look at the answers we are still searching for. College and university courses can be developed around this book and it can be used alone or in conjunction with other material. Even college physics majors would enjoy reading this book as an introduction to particle physics. High-school, and even middle-school, teachers could also use this book to introduce this material to their students. It will also be beneficial for high-school teachers who have not been formally exposed to high-energy physics, have forgotten what they once knew, or are no longer up to date with recent developments.
This book is the product of many years of teaching a course at Vassar College on subatomic physics for non-science majors. As a final exercise in the course, the students were required to write a short story or poem with subatomic particles as the main characters. I have collected the very best of them in this book. By the time you read the whole book you should be familiar with common particle world events like annihilation, pair production and decay, but a glossary of terms and suggestions for further reading are included just in case.This book is light reading; meant to entertain!For science lovers, science teachers, physics teachers and particle physics people.
An analysis of the way postmodern novels respond to changes in the experience of time.
What is everything really made of? If we split matter down into smaller and infinitesimally smaller pieces, where do we arrive? At the Particle Zoo - the extraordinary subatomic world of antimatter, ghostly neutrinos, strange-flavoured quarks and time-travelling electrons, gravitons and glueballs, mindboggling eleven-dimensional strings and the elusive Higgs boson itself. Be guided around this strangest of zoos by Gavin Hesketh, experimental particle physicist at humanity's greatest experiment, the Large Hadron Collider. Concisely and with a rare clarity, he demystifies how we are uncovering the inner workings of the universe and heading towards the next scientific revolution. Why are atoms so small? How did the Higgs boson save the universe? And is there a Theory of Everything? The Particle Zoo answers these and many other profound questions, and explains the big ideas of Quantum Physics, String Theory, The Big Bang and Dark Matter... and, ultimately, what we know about the true, fundamental nature of reality.
Lists all the resources needed to create a balanced curriculum for homeschooling--from preschool to high school level.
Revealing the career histories of successful 20th century scientists, this exciting resource offers students fascinating reads, a wonderful research tool, and tips to launching a science career. They'll learn about Robert Ballard, the oceanographer who discovered the Titanic; Annie Wauneka, who eradicated TB among the Navajo; and Chien-Shiung Wu, a physicist who worked on the Manhattan project. They will also find information about many Nobel Prize winners and such familiar personalities as Sally Ride, Carl Sagan, Stephen Hawking, Jacques Cousteau, Dian Fossey, and Margaret Mead. Physical, earth, and life sciences are represented, with a focus on contemporary North Americans. Descriptions of each scientist's most important contributions and biographical sketches are accompanied by words of advice to today's students who wish to establish a science career. Photos of some of the scientists illustrate the text, and lists for further reading are included.
This book rehabilitates beta as a definition of systemic risk by using particle physics to evaluate discrete components of financial risk. Much of the frustration with beta stems from the failure to disaggregate its discrete components; conventional beta is often treated as if it were "atomic" in the original Greek sense: uncut and indivisible. By analogy to the Standard Model of particle physics theory's three generations of matter and the three-way interaction of quarks, Chen divides beta as the fundamental unit of systemic financial risk into three matching pairs of "baryonic" components. The resulting econophysics of beta explains no fewer than three of the most significant anomalies and puzzles in mathematical finance. Moreover, the model's three-way analysis of systemic risk connects the mechanics of mathematical finance with phenomena usually attributed to behavioral influences on capital markets. Adding consideration of volatility and correlation, and of the distinct cash flow and discount rate components of systematic risk, harmonizes mathematical finance with labor markets, human capital, and macroeconomics.