Core Concepts Of Mechanics And Thermodynamics
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Core Concepts of Mechanics and Thermodynamics
"Core Concepts of Mechanics and Thermodynamics" is a textbook designed for students and anyone interested in these crucial areas of physics. The book begins with the basics of mechanics, covering motion, forces, and energy, and then moves on to thermodynamics, discussing heat, temperature, and the laws of thermodynamics. The book emphasizes clear explanations and real-world examples to illustrate concepts, and it also provides problem-solving techniques to apply what you learn. It covers mechanics and thermodynamics from basic principles to advanced topics, explains concepts clearly with examples, teaches problem-solving techniques, connects theory to real-world applications in engineering, physics, and materials science, and includes historical context to show the development of these ideas. "Core Concepts of Mechanics and Thermodynamics" is a valuable resource for students, teachers, and self-learners. Whether you are beginning your journey or seeking to deepen your understanding, this book provides a solid foundation in these essential subjects.
Principles of Thermodynamics
Author: Jean-Philippe Ansermet
language: en
Publisher: Cambridge University Press
Release Date: 2019-01-03
An introductory textbook presenting the key concepts and applications of thermodynamics, including numerous worked examples and exercises.
Continuum Mechanics and Thermodynamics
"Continuum mechanics and thermodynamics are foundational theories of many fields of science and engineering. This book presents a fresh perspective on these fundamental topics, connecting micro- and nanoscopic theories and emphasizing topics relevant to understanding solid-state thermo-mechanical behavior. Providing clear, in-depth coverage, the book gives a self-contained treatment of topics directly related to nonlinear materials modeling. It starts with vectors and tensors, finite deformation kinematics, the fundamental balance and conservation laws, and classical thermodynamics. It then discusses the principles of constitutive theory and examples of constitutive models, presents a foundational treatment of energy principles and stability theory, and concludes with example closed-form solutions and the essentials of finite elements. Together with its companion book, Modeling Materials, (Cambridge University Press, 2011), this work presents the fundamentals of multiscale materials modeling for graduate students and researchers in physics, materials science, chemistry and engineering"--