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Einstein's Generation
'Einstein's Generation' offers a new approach to the origins of modern physics by exploring both the material culture that stimulated relativity and the reaction of Einstein's colleagues to his pioneering work.
History of Science in United States
This Encyclopedia examines all aspects of the history of science in the United States, with a special emphasis placed on the historiography of science in America. It can be used by students, general readers, scientists, or anyone interested in the facts relating to the development of science in the United States. Special emphasis is placed in the history of medicine and technology and on the relationship between science and technology and science and medicine.
Rising Force
In this first-ever popular introduction to “maglev”— the use of magnetic forces to overcome gravity and friction—Livingston takes lay readers on a journey of discovery, from maglev nanotechnology to Chinese trains that travel at 250 mph without touching the tracks. He finds magic in “fighting friction by fighting gravity.”
Michael Faraday: A Very Short Introduction
Known as the 'father' of electrical engineering, Michael Faraday is one of the best known scientific figures of all time. In this Very Short Introduction, Frank A.J.L James looks at Faraday's life and works, examining the institutional context in which he lived and worked, his scientific research, and his continuing legacy in science today.
Understanding Relativity
The central subject matter of this book is Einstein's special theory of relativiry. While it is a book that is written primarily for a lay audience this does not necessarily mean an audience not versed in the ways of doing science. Rather, this book is written for anyone wishing to consider the nature of the scientific enterprise: where ideas come from, how they become established and accepted, what the relationships are among theories, predictions, and measurements, or the relationship between ideas in a scientific theory and the values held to be important within the larger culture. Some readers will find it strange that I raise any of these issues. It is a common view in our culture that ...
Physical Chemistry from Ostwald to Pauling
John Servos explains the emergence of physical chemistry in America by presenting a series of lively portraits of such pivotal figures as Wilhelm Ostwald, A. A. Noyes, G. N. Lewis, and Linus Pauling, and of key institutions, including MIT, the University of California at Berkeley, and Caltech. In the early twentieth century, physical chemistry was a new hybrid science, the molecular biology of its time. The names of its progenitors were familiar to everyone who was scientifically literate; studies of aqueous solutions and of chemical thermodynamics had transformed scientific knowledge of chemical affinity. By exploring the relationship of the discipline to industry and to other sciences, and by tracing the research of its leading American practitioners, Servos shows how physical chemistry was eclipsed by its own offspring--specialties like quantum chemistry.
The Command of Light
Henry Rowland (1848-1901) was one of the most important figures in the founding of modern physics in the U.S. A principal founder and first pres. of the Amer. Physical Soc., he is best known for his invention of the concave spectral grating for which he won a gold medal and grand prize at the 1890 Paris Exposition. A grad. of Rensselaer Polytechnic Inst. in civil engineering, Rowland was prof. of physics at Johns Hopkins Univ., where he had the principal part in forming the first school of Amer. physicists to be professionally trained in the U.S. In this vol., Sweetnam, using Rowland's papers and those of his colleagues and students, has written the first scholarly exposition of Rowland's work.
Physics and National Socialism
1 Aim and General Description of the Anthology The purpose of this anthology is to introduce the English speaking public to the wide spectrum of texts authored predominently by physicists portraying the ac tual and perceived role of physics in the Nazi state. Up to now no broad and well balanced documentation of German physics during this time has been available in English, despite the significant role physics has played both politically (e. g. , in weaponry planning) and ideologically (e. g. , in the controversy over the value of theoretical ('Jewish') vs. experimental ('Aryan') physics), and even though prominent figures like the scientist-philosopher and emigre Albert Einstein and the con...
