Physics of Societal Issues is a textbook those who seek to understand fundamental issues of energy use, nuclear weapons, and the environment using facts and figures instead of slogans and postures. Taking inspiration from Fermi's famous "back of the envelope" calculations, author David Hafemeister shows how to capture the essence of a problem with rough estimates of important parameters, and use those estimates to gauge the effects of policy decisions.
A landmark tour of the new science of "idea flow" outlines revolutionary insights into the mysteries of collective intelligence and social influence, explaining the virtually unlimited data sets of today's digital technologies and the considerable accuracy of information from social networks.
This book provides the reader with essential tools needed to analyze complex societal issues and demonstrates the transition from physics to modern-day laws and treaties. This second edition features new equation-oriented material and extensive data sets drawing upon current information from experts in their fields. Problems to challenge the reader and extend discussion are presented on three timely issues: • National Security: Weapons, Offense, Defense, Verification, Nuclear Proliferation, Terrorism • Environment: Air/Water, Nuclear, Climate Change, EM Fields/Epidemiology • Energy: Current Energy Situation, Buildings, Solar Buildings, Renewable Energy, Enhanced End-Use Efficiency, Transportation, Economics Praise for the first edition: "This insight is needed in Congress and the Executive Branch. Hafemeister, a former Congressional fellow with wide Washington experience, has written a book for physicists, chemists and engineers who want to learn science and policy on weapons, energy, and the environment. Scientists who want to make a difference will want this book." Richard Scribner, first Director, Congressional Science and Engineering Fellow Program, AAAS "Hafemeister shows how much one can understand about nuclear weapons and missile issues through simple back-of-the-envelope calculations. He also provides compact explanations of the partially successful attempts that have been made over the past 60 years to control these weapons of mass destruction. Hopefully, Physics of Societal Issues will help interest a new generation of physicists in continuing this work." Frank von Hippel, Professor, Princeton, former Assistant Director, National Security, White House, OSTP "Energy policy must be quantitative. People who don't calculate economic tradeoffs often champion simplistic hardware. ‘The solution is more... nuclear power, or electric cars, or photovoltaics, etc.’ Some simple physics will show that the true solution matches supply and demand as an ‘integrated resource plan.’ Physics of Societal Issues is a good place to begin this journey." Arthur Rosenfeld, former California Energy Commissioner, Professor-emeritus, U. of California-Berkeley
Physics of Societal Issues is a textbook those who seek to understand fundamental issues of energy use, nuclear weapons, and the environment using facts and figures instead of slogans and postures. Taking inspiration from Fermi's famous "back of the envelope" calculations, author David Hafemeister shows how to capture the essence of a problem with rough estimates of important parameters, and use those estimates to gauge the effects of policy decisions.
Physics of Societal Issues is a textbook those who seek to understand fundamental issues of energy use, nuclear weapons, and the environment using facts and figures instead of slogans and postures. Taking inspiration from Fermi's famous "back of the envelope" calculations, author David Hafemeister shows how to capture the essence of a problem with rough estimates of important parameters, and use those estimates to gauge the effects of policy decisions.
Are there any "laws of nature" that influence the ways in which humans behave and organize themselves? In the seventeenth century, tired of the civil war ravaging England, Thomas Hobbes decided that he would work out what kind of government was needed for a stable society. His approach was based not on utopian wishful thinking but rather on Galileo's mechanics to construct a theory of government from first principles. His solution is unappealing to today's society, yet Hobbes had sparked a new way of thinking about human behavior in looking for the "scientific" rules of society. Adam Smith, Immanuel Kant, Auguste Comte, and John Stuart Mill pursued this idea from different political perspectives. Little by little, however, social and political philosophy abandoned a "scientific" approach. Today, physics is enjoying a revival in the social, political and economic sciences. Ball shows how much we can understand of human behavior when we cease to try to predict and analyze the behavior of individuals and instead look to the impact of individual decisions-whether in circumstances of cooperation or conflict-can have on our laws, institutions and customs. Lively and compelling, Critical Mass is the first book to bring these new ideas together and to show how they fit within the broader historical context of a rational search for better ways to live.
The development of the energy concept in Western physics and its subsequent effect on the emergence of neoclassical economics are traced to reveal how economics has sought to emulate physics, especially with regard to the theory of value.
The mesmerizing bestseller that combines the storytelling gifts of Donna Tartt and the suspense of Alfred Hitchcock—A New York Times Ten Best Book of the Year Special Topics in Calamity Physics is a darkly hilarious coming-of-age tale and a richly plotted suspense story, told with dazzling intelligence and wit. At the center of the novel is clever, deadpan Blue van Meer, who has a head full of literary, philosophical, scientific, and cinematic knowledge. But she could use some friends. Upon entering the elite St. Gallway School, she finds some—a clique of eccentrics known as the Bluebloods. One drowning and one hanging later, Blue finds herself puzzling out a byzantine murder mystery. Nabokov meets Donna Tartt (then invites the rest of the Western Canon to the party) in this novel—with visual aids drawn by the author—that has won over readers of all ages.
Nations around the globe consider physics education an important tool of economic and social development and currently advocate the use of innovative strategies to prepare students for knowledge and skills acquisition. Particularly in the last decade, a series of revisions were made to physics curricula in an attempt to cope with the changing needs and expectations of society. Educational transformation is a major challenge due to educational systems’ resistance to change. Updated curriculum content, pedagogical facilities (for example, computers in a school), new teaching and learning strategies and the prejudice against girls in physics classes are all issues that have to be addressed. Educational research provides a way to build schemas and resources to promote changes in physics education. This volume presents physics teaching and learning research connected with the main educational scenarios.
This thoroughly revised and updated third edition focuses on the utilization of sustainable energy and mitigating climate change, serving as an introduction to physics in the context of societal problems. A distinguishing feature of the text is the discussion of spectroscopy and spectroscopic methods as a crucial means to quantitatively analyze and monitor the condition of the environment, the factors determining climate change, and all aspects of energy conversion. This textbook will be invaluable to students in physics and related subjects, and supplementary materials are available on a companion website http://www.nat.vu.nl/environmentalphysics Instructor support material is available at http://booksupport.wiley.com
