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Market: Scientists, engineers, and graduate students involved in the phenomenon of plasma physics. This 1966 reference work is a compilation of some of the most important plasma physics measurements published during the late 1950s and the early 1960s. It offers a wealth of useful information on elastic-collision and charge- transfer cross sections, mobility and diffusion, electron attachment and detachment, and recombination. Numerous fundamental principles make this a much-consulted handbook on the physical phenomena, measurements, and properties of plasma physics.
Like his countryman and contemporary Benjamin Franklin, Benjamin Thompson (later Count Rumford) aimed by his inventions and scientific research to increase the degree of comfort in daily life. During the fourteen years spent in Munich, he made important reforms in the city's public service and social welfare institutions; he also introduced improvements in the hospitals and workhouses in Ireland, England, and Italy. Rumford's contributions to our knowledge of the nature of heat were as valuable as Franklin's to our knowledge of electricity. Volume I of this edition of Rumford's Works contained his papers on the nature of heat. This second volume presents Rumford's work on the practical applications of heat. Of particular interest are his papers on the propagation of heat in liquids, chimney fire-places, supplementary observations on chimney fire-places, and the management of fire and the economy of fuel. Subsequent volumes contain papers on devices and techniques, light and armament, and public institutions.
An American of wide-ranging interests and overflowing energy, Benjamin Thompson applied his scientific and technical knowledge to the improvement of public service and welfare institutions in Bavaria (a service for which he was made Count Rumford), Ireland, England, and Italy. In the process, he made important discoveries in physics. In this new edition of Rumford's Works, Sanborn Brown has arranged his writings according to subject matter: this first volume contains his papers on the nature of heat, and includes one paper which has never before been published in English. The volume begins with Rumford's paper on the production of heat by friction, and continues with descriptions of the experiments by which he showed that heat has no weight, and his essays on the propagation of heat in solids and fluids. Subsequent volumes contain papers on practical applications of heat, devices and techniques (including studies of fireplaces and chimneys), armament, light and color, and on such public establishments and organizations as poorhouses, the army of Bavaria, and the Royal Institution in London.
This is a new release of the original 1960 edition.
Kessinger Publishing is the place to find hundreds of thousands of rare and hard-to-find books with something of interest for everyone!
Kessinger Publishing is the place to find hundreds of thousands of rare and hard-to-find books with something of interest for everyone!
Kessinger Publishing is the place to find hundreds of thousands of rare and hard-to-find books with something of interest for everyone!
Discusses how and why universities might restructure their graduate programs toward a greater sensitivity to society's needs. When aerospace engineers, laid off from the space program, feel lucky to find employment as manual laborers; when physics Ph.D.s, ready and willing to teach, find themselves at the end of waiting lists hundreds of names long for positions at little-known colleges and even high schools-then clearly the problem of making proper use of those with advanced education, and of giving them proper scope, is already at a critical point.This book brings together from the universities, industry, and government a group that is knowledgeable and concerned, ex officio and as individuals. In their presentations and discussions they consider numerous aspects of the problem and several means of resolution.In their preface the editors write, "In an attempt to convene various experts who had written in the scientific manpower field, a symposium was organized at the Massachusetts Institute of Technology under the title The Supply, Need, and Utilization of Graduate Scientists and Engineers and was held on May 12 and 13, 1970. This report is an edited and restructured summary of discussions held at that time, with particular emphasis on the effect of the manpower utilization problem on graduate education. It clearly points to the urgency of manpower planning on a national scale and the necessity for universities to restructure their graduate programs toward a much greater sensitivity to society's utilization of the products of their educational programs."The Symposium was jointly sponsored by the National Science Foundation and the Commission on MIT Education. Among the invited speakers were Philip H. Abelson, Editor of Science; Charles R. Bowen, Manager, Program Development, IBM Corporation; Allan Cartter, Chancellor, New York University; Charles Falk, Head of the Office of Economic Manpower and Special Studies, National Science Foundation; Richard S. Gordon, Vice President, New Enterprises, Monsanto Company; William C. Kelly, Director, Office of Scientific Personnel, National Research Council; Herbert Pahl, Acting Associate Director for Planning and Evaluation, National Institute of General Medical Science; Elbridge Sibley, Executive Associate, Social Sciences Research Council; Guyford Stever, President, Carnegie-Mellon University; and several directors of research for large companies.
Given the ever-increasing acceleration of science and technology, every modern scientist is to some degree concerned about the future of his subject and, as a teacher, about how to come to terms with the interaction of science and the needs and aspirations of his students.This book reports the proceedings of the International Congress on the Education of Teachers of Physics in Secondary Schools, held in Eger, Hungary, during September 1970. It reviews the recruitment and education of prospective physics teachers in secondary schools, considers the solutions found by some countries and attempts to aid others in solving the problems of their own local situations. The 151 participants from 28 countries represented many different educational systems and the conference's location made possible the attendance of teachers from the Soviet Union, Poland, Czechoslovakia, Africa, the United States, and the United Arab Republic, in addition to a large group from the host country. In presenting the material, the editors have attempted to retain the conversational tone -- the "free flow of information" -- of the conference.Chapter 1, "The Response to Modern Society," provides the backdrop against which all further discussions are cast -- namely, a concern for the relation of physical science to culture in the most general sense and to the problems of society in particular. Subsequent chapters begin with guidelines formally adopted by each international "working group" as it pursued such specific topics as: constraints on teacher education; the recruitment, initial training, and in-service education of teachers; curriculum innovation in teacher education; the technology of physics education; procurement of low-cost equipment; and special problems of developing countries. Five appendixes provide information on papers and documents contributed to the conference, the names and addresses of participants, curriculum projects, teaching films, and the conference exhibition.
This volume contains the editors' survey of the proceedings of a Conference on Physics in General Education held in Rio de Janeiro in July, 1963. This volume contains a readable, condensed, and interpretive account of discussions among physicists from 26 countries from the Conference on Physics in General Education held in Rio de Janeiro in July, 1963. The meeting dealt with physics as part of a liberal education. The serious practical difficulties of teaching physics in a way that is appropriate to this purpose are now widely recognized in those countries that are highly developed scientifically, and many projects have been launched to solve them. Reports on some of these projects were given at the Conference, and still others are referred to in the book. In the comparatively underdeveloped countries, on the other hand, it is still necessary to establish the importance of including physics and other sciences in the curriculum. The book will be useful to all those who are concerned with science education. It will prove particularly useful to science educators working in Latin America, Africa, and Asia. This was the second conference on education to be organized under the auspices of the International Union of Pure and Applied Physics (IUPAP), in association with a number of other national and international organizations. The Conference material was reduced to about one-third of its volume, rearranged, and in instances largely rewritten, so as to present the essence of the formal addresses and discussions in as useful and readable form as possible.
Like his countrymean and contemporary Franklin, Benjamin Thompson (later Count Rumford) aimed by his inventions and scientific research to increase the degree of comfort in daily life. During fourteen years spent in Munich, he made important reforms in the city's public service and social welfare institutions; he also introduced improvements in the hospitals and workhouses in Ireland, England, and Italy. His goals were practical, and his contributions to our knowledge of the nature of heat were as valuable as Franklin's to our knowledge of electricity. Rumford believed heat to be a form of energy, and worked to demolish the widely held material theory of heat. Between 1870 and 1875 the American Academy of Arts and Sciences in Boston published Rumford's "complete" "Works," financing the projecct with part of the increase of a fund that Rumford himself had given to the Academy in 1796. This edition presented, in order of their first appearance, all the papers that the Academy committee was able to find. The Academy edition has long been out of print and practically unavailable. In this edition Mr. Brown has rearragned the papers according to subject matter. Rumford's papers dealing with light and with armament are contained in this fourth volume. They include "Intensity of Light"; Coloured Shadows"; "Harmony of Colors"; "Chemical Properties of Light"; "Management of Light"; "Source of Light in Combustion"; "Air from Water Exposed to Light"; "Description of a New Lamp"; "Experiments upon Gunpowder"; "Force of Fired Gunpowder"; and "Experiements with Cannon."
Benjamin Thompson (later Count Rumford) aimed by his inventions and scientific research to increase the degree of comfort in daily life. His goals were practical and his contributions to our knowledge of the nature of heat proved extremely valuable. Between 1870 and 1875, the American Academy of Arts and Sciences in Boston published all of Rumford's papers that the Academy committee was able to find. The Academy edition, however, has long been out of print and practically unavailable. Here Sanborn Brown has rearranged the papers according to subject matter. Volume I contains Rumford's papers on the nature of heat; the second covers its practical applications. This third volume contains his papers on devices and techniques, including "Use of Steam for Transporting Heat"; "Means of Heating the Hall of the (French) Institute"; "New Boiler for Saving Fuel"; "Steam Heat for Making Soap"; "Fires in Closed Fire-Places"; "Kitchen Fire-Places"; "Salubrity of Warm Rooms"; "Salubrity of Warm Bathing"; "The Strength of Silk"; "Quantities of Absorbed Moisture"; "Advantage of Wheels with Broad Felloes"; and "Proposals for Building a Frigate."
The selected papers of William Phelps Allis are gathered here in celebration of his elevation from Professor to Professor Emeritus of Physics at the Massachusetts Institute of Technology. This gathering was arranged as a surprise tribute to Professor Allis and was prepared under conditions of conspiring silence. The presentation was held at M.I.T. on May 10, 1967. The papers selected here are a worthy extension of the man himself, in their directness and essential simplicity. And in their abiding value. In the words of his editor, student, and colleague Sanborn C. Brown, "he has succeeded in leading a whole generation of Physicists with such a timeless approach that this volume should be considered not as a look backward but as a compilation of fundamental insights upon which to build future progress."
An American of wide-ranging interests and overflowing energy, Benjamin Thompson applied his scientific and technical knowledge to the improvement of public service and welfare institutions in Bavaria (a service for which he was made Count Rumford), Ireland, England, and Italy. In the process, he made important discoveries in physics. In this new edition of Rumford's Works, Sanborn Brown has arranged his writings according to subject matter: in this fifth volume are Rumford's papers on public institutions: "Poor in Munich"; "Poor in All Countries"; "Feeding the Poor"; "Coffee"; "Public Institutions in Bavaria"; "Regulations for the Army of Bavaria"; "Public Institutions in Great Britain"; and "The Royal Institution." The Collected Works of Count Rumford is much more than a source book or a guide to methods of research in physics. It provides a unique portrait of the scientific, political, and social conditions of the turbulent early years of the Industrial Revolution.
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