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A laboratory manual for high schools, colleges, and universities, this book contains more than 80 experiments and lecture demonstrations. The coverage includes the essentials of general physics: mechanics and molecular physics, electricity and magnetism, optics and atomic physics, and condensed matter physics. All the experiments are illustrated through the results of real measurements and include many novel experiments developed by the author.
Introductory Experiments; Mechanics; Molecular Physics; Electricity and Magnetism; Optics and Atomic Physics; Condensed Matter Physics; Semiconductor Physics; Applied Physics; Nobel Prize Experiments; Student Projects;
A laboratory manual for high schools, colleges, and universities. The second edition contains more than 140 experiments and demonstrations presented in ten chapters: Introductory Experiments (30), Mechanics (11), Molecular Physics (11), Electricity and Magnetism (13), Optics and Atomic Physics (12), Condensed Matter Physics (11), Semiconductors (10), Applied Physics (11), Nobel Prize Experiments (10), and Student Projects (25). All the experiments are illustrated through the results of real measurements. New experiments developed by the author in 2007-2014 are added to this edition.
The monograph presents the various methods of the modulation and of measuring the temperature oscillations. Important applications of the modulation techniques for studying physical phenomena in solids and liquids are considered in depth (equilibrium point defects, phase transitions, superconductors, liquid crystals, biological materials, relaxation phenomena in specific heat, etc).
This is the inaugural volume of a new book series entitled "The Road to Scientific Success: Inspiring Life Stories of Prominent Researchers". Authoritative scientists such as Nobel Prize laureates Douglas D Osheroff and Herbert A Hauptman and US National Medal of Science recipients Paul Ching-Wu Chu and Eli Ruckenstein describe their life experiences in relation to how success was attained, how their careers were developed, how their research was steered, how priorities were set, and how difficulties were faced. These keys to success serve as a useful guide for anyone who is looking for advice on how to direct their career and conduct scientific research that will make an impact. The focus o...
Despite the significant progress in the study of point defects in metals, some important problems still do not have unambiguous solutions. One of the most practically important questions relates to equilibrium defect concentrations. There exist two opposite viewpoints: (1) defect contributions to physical properties of metals at high temperatures are small and cannot be separated from the effects of anharmonicity; the equilibrium defect concentrations at the melting points are in the range of 10-4 to 10-3; (2) in many cases, defect contributions to the specific heat of metals are much larger than nonlinear effects of anharmonicity and can be separated without crucial errors.
DIMAT2000 Int. Conf. on Diffusion in Materials, Paris, France, July 17-21, 2000
The European journal of physics is the European voice of physics teachers in higher education, publishing papers on education and scholarly studies in physics and closely related sciences at university level.
This book covers, on close to 2000 pages, all aspects of basic and applied diffusion research in all important engineering materials, including metals and intermetallics, elemental and compound semiconductors, amorphous and nanocrystalline materials and oxides.