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The study of mechanics plays a central role in physics for a whole variety of reasons. It was one of the earliest of the quantitative sciences, and had immediate practical applications. These ranged from the study of the motion of projectiles in warfare to the motion of the planets, predicting the seasons, eclipses, etc. At the present time, even though superseded on the very small scale by quantum theory and on the very large scale by the theory of relativity, the mechanics of Newton is perfectly adequate for treating a wide spectrum of problems from the • '"etic theory of gases to the motion of space vehicles. Furthermore, the science of mechanics is regarded by many as the epitome of a ...
Using the quantum approach to the subject of atomic physics, this text keeps the mathematics to the minimum needed for a clear and comprehensive understanding of the material. Beginning with an introduction and treatment of atomic structure, the book goes on to deal with quantum mechanics, atomic spectra and the theory of interaction between atoms and radiation. Continuing to more complex atoms and atomic structure in general, the book concludes with a treatment of quantum optics. Appendices deal with Rutherford scattering, calculation of spin-orbit energy, derivation of the Einstein B coefficient, the Pauli Exclusion Principle and the derivation of eigenstates in helium. The book should be of interest to undergraduate physics students at intermediate and advanced level and also to those on materials science and chemistry courses.
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The modern Institute of Physics and its predecessors have served the needs of physics and physicists for 125 years. In celebration of this anniversary, 125 Years: The Physical Society and The Institute of Physics charts the history of the Institute from its origins to the present day. It provides a fascinating account of the people and events that shaped the Institute's development and includes the: Emergence of physics as a separate scientific discipline Formation of the Physical Society of London Establishment of the Institute of Physics Granting of a Royal Charter to the Institute of Physics Final decades of the millennium Separate chapters are devoted to the educational, professional, and publishing activities of the Institute. Pioneers such as Guthrie, Glazebrook, and Phillips could not have envisaged the ways in which the modern Institute has developed, but would surely approve of the way it is moving forward to the next millennium.
In this autobiography, Sir Peter Mansfield describes his life from war time childhood that initially sparked his interest in physics to his work in magnetic resonance imaging (MRI) that eventually led to the award of the Nobel Prize in 2003. Peter Mansfield grew up in London, but was evacuated to Devon during the blitz and following the V1 and V2 attacks on London. At the end of hostilities, he worked briefly in the printing industry before deciding to pursue his real interests in science by joining the Rocket Propulsion Department at Westcott near Aylesbury. Following a period of National Service and his studies at Queen Mary College, University of London, he married and moved to the USA fo...
Superfluidity is the jewel in the crown of low temperature physics. When temperatures are low enough, every substance in thermal equilibrium must become ordered. Since some materials remain fluid to the lowest temperatures, it is a fascinating question as to how this ordering can take place. One possibility is the formation of a superfluid state, a
Ghillean Prance, Director of Kew Gardens, applies his immeasurable knowledge as a botanist and scientist and his deeply held Christian beliefs to the basic questions surrounding our destruction of the earth and what we can do to change course.
Building on the material learned by students in their first few years of study, Topics in Statistical Mechanics (Second Edition) presents an advanced level course on statistical and thermal physics. It begins with a review of the formal structure of statistical mechanics and thermodynamics considered from a unified viewpoint. There is a brief revision of non-interacting systems, including quantum gases and a discussion of negative temperatures. Following this, emphasis is on interacting systems. First, weakly interacting systems are considered, where the interest is in seeing how small interactions cause small deviations from the non-interacting case. Second, systems are examined where inter...
Quantum mechanics is the key to modern physics and chemistry, yet it is notoriously difficult to understand. This book is designed to overcome that obstacle. Clear and concise, it provides an easily readable introduction intended for science undergraduates with no previous knowledge of quantum theory, leading them through to the advanced topics usually encountered at the final year level.Although the subject matter is standard, novel techniques have been employed that considerably simplify the technical presentation. The authors use their extensive experience of teaching and popularizing science to explain the many difficult, abstract points of the subject in easily comprehensible language. Helpful examples and thorough sets of exercises are also given to enable students to master the subject.