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A thorough exploration of the universal principles of thermodynamics and statistical mechanics, this volume takes an applications-oriented approach to a multitude of situations arising in physics and engineering. 1987 edition.
This textbook offers a description of physical phenomena according to the scope of Classical Physics following an approach typical of Experimental Physics. The first volume describes phenomena related to Mechanics and Thermodynamics and the second volume analyses phenomena related to Electromagnetism also providing a digression on the phenomena that led to the crisis of Classical Physics. The level of content identifies the book as an introductory Physics textbook for Engineering and Science which requires an advanced knowledge of mathematical methods. Several cases and exercises are offered in order to allow users to test their understanding of the explained contents.
Handbook of Physics is a veritable toolbox for rapid access to a wealth of physics information for everyday use in problem solving, homework, and examinations. This complete reference includes not only the fundamental formulas of physics but also experimental methods used in practice.
"Presents the fundamental concepts of classical physics in a coherent and logical manner"--
From the reviews: "This book excels by its variety of modern examples in solid state physics, magnetism, elementary particle physics [...] I can recommend it strongly as a valuable source, especially to those who are teaching basic statistical physics at our universities." Physicalia
A beloved introductory physics textbook, now including exercises and an answer key, explains the concepts essential for thorough scientific understanding In this concise book, R. Shankar, a well-known physicist and contagiously enthusiastic educator, explains the essential concepts of Newtonian mechanics, special relativity, waves, fluids, thermodynamics, and statistical mechanics. Now in an expanded edition—complete with problem sets and answers for course use or self-study—this work provides an ideal introduction for college-level students of physics, chemistry, and engineering; for AP Physics students; and for general readers interested in advances in the sciences. The book begins at the simplest level, develops the basics, and reinforces fundamentals, ensuring a solid foundation in the principles and methods of physics.
This collection of exercises proposes a relevant choice of the written tests assigned to the Information Engineering Courses of General Physics in the past Academic Years. An accurate selection of the problems has been done. They have been organised by item with the addition of a largely commented solution with the purpose to provide students with an advanced tool for the preparation for the written part of the examination. Every item is gradually introduced; but a sufficiently deep theoretical knowledge of the matter of study is anyway required in order to correctly understand the presented situations. The proposed problems are the ideal complement to the exercises solved by a Professor while lecturing or the ones offered in theory textbooks as worked out examples or problems to be solved.
This second edition is ideal for classical mechanics courses for first- and second-year undergraduates with foundation skills in mathematics.
Well respected and widely used, this volume presents problems and full solutions related to a wide range of topics in thermodynamics, statistical physics, and statistical mechanics. The text is intended for instructors, undergraduates, and graduate students of mathematics, physics, chemistry, and engineering. Twenty-eight chapters, each prepared by an expert, proceed from simpler to more difficult subjects. Similarly, the early chapters are easier than the later ones, making the book ideal for independent study. Subjects begin with the laws of thermodynamics and statistical theory of information and of ensembles, advancing to the ideal classical gases of polyatomic molecules, non-electrolyte liquids and solutions, and surfaces. Subsequent chapters explore imperfect classical and quantum gas, phase transitions, cooperative phenomena, Green function methods, the plasma, transport in gases and metals, Nyquist's theorem and its generalizations, stochastic methods, and many other topics.