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Unravelling the Mystery of the Atomic Nucleus is a history of atomic and nuclear physics. It begins in 1896 with the discovery of radioactivity, which leads to the discovery of the nucleus at the center of the atom. It follows the experimental discoveries and the theoretical developments up to the end of the Fifties. Unlike previous books regarding on history of nuclear physics, this book methodically describes how advances in technology enabled physicists to probe the physical properties of nuclei as well as how the physical laws which govern these microscopic systems were progressively discovered. The reader will gain a clear understanding of how theory is inextricably intertwined with the progress of technology. Unravelling the Mystery of the Atomic Nucleus will be of interest to physicists and to historians of physics, as well as those interested development of science.
Follow a time line of physics history and one thing becomes readily apparent - many of this century's major milestones were first documented in the pages of "The Physical Review." Now the most important of this research is brought together in this landmark book and CD-ROM package. Along with the celebrated work of luminaries such as Langmuir, Bohr, Wheeler, Feynman, this volume brings to light more obscure, though no less critical research. Together with papers from Physical Review Letters, this unique work puts more than 1,000 papers at your fingertips.
The Physics of Elementary Particles details the physical principles that govern the behavior of elementary particles. The title focuses on discussing the theoretical concepts of elementary particles. The text first tackles the discovery and classification of the elementary particles, and then proceeds to covering the intrinsic properties of the particles. Chapter 3 talks about the preliminaries to a quantized field theory, while Chapter 4 deals with the quantum theory of non-interacting fields. Next, the selection details the symmetry properties of free fields. The next five chapters are dedicated to covering the interaction of fields. The remaining chapters discuss various forms of interaction, such as electromagnetic, weak, and strong. The book will be of great interest to physicists, particularly those who specialize in quantum mechanics.
The present Supplement Volume Beryllium A 3 continues and completes the description of the physical properties of the element, begun in Supplement Volume A 2, 1991, and also treats the electrochemical behavior of the metal. The unique combination of the Be properties, which was pointed out in Supplement Volume A 2, is also demonstrated in the following chapters of this Volume A 3: 13. Electrical Properties 14. Electronic Properties 15. Optical Properties. Emission and Impact Phenomena 16. Electrochemical Behavior Starting with the electrical properties, Be isarather good electrical conductor in centrast to what might be expected. Superconductivity was studied, especially on films. Quantum effects, which are more pronounced in Be than in most other metals, are the reason for numerous in vestigations of the magnetoresistance and the magnetic-breakdown effect. The basis for many of the characteristic properties is the unique nature of bonding in Be as a consequence of its peculiar electronic structure and the special shape of its Fermi surface which also gave rise to further numerous studies. Detailed cluster calculations were per formed to better understand the bonding in the metal. Regarding the optical properties, the high reflectivity of Be, particularly in the infrared region, makes it attractive for the fabrication of precision optical surfaces (mirrors); it is also useful for solar-collector surfaces in spacecraft applications. Emission and electron-and ion impact phenomena as well as neutron optics are also discussed.
Archival journal targeted toward advanced-level physics and physics education, with its focus on the teaching and cultural aspects of physics.
This is the third edition of a text that is already well established as one of the standard undergraduate books on the subject of elementary particle physics. Professor Hughes has updated the whole text in line with current particle nomenclature and has added material to cover important new developments. There is also a completely new major chapter on particle physics and cosmology, an exciting subject that has become an area of increasing importance in recent years. In this field much can be learned from the way the subject has developed, and so, where this helps its understanding, a historical treatment is used. Unlike other texts on this subject, at all stages the author closely links theoretical developments to the relevant experimental measurements, providing a sound foundation to what might otherwise be a rather abstract subject. He also provides historical background where it will aid comprehension of the material.