The Physics Of Energy By Jaffe And Taylor Pdf

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the physics of energy by jaffe and taylor pdf

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T he Physics of Energy , at pages and weighing in at almost six pounds, is the most comprehensive book on energy that I have ever seen. The book is the product of decades of energy and physics classes taught by theoretical physics professors Robert Jaffe and Washington Taylor at the Massachusetts Institute of Technology.

Physics of Energy (eBook, PDF)

T he Physics of Energy , at pages and weighing in at almost six pounds, is the most comprehensive book on energy that I have ever seen. The book is the product of decades of energy and physics classes taught by theoretical physics professors Robert Jaffe and Washington Taylor at the Massachusetts Institute of Technology. Jaffe and Taylor are clearly passionate about physics, and the result is a fantastically thorough and detailed evaluation of the underpinnings of energy and energy systems from a physics perspective.

The book has three parts, broken out into 38 chapters and subchapters. Each chapter concludes with a discussion and investigation questions and problems. Chapters are dense with information, but call out physics principles, use illustrations to describe concepts, and have examples with answers to further expand upon and explain concepts. While the technical content of the book is daunting, it is highly approachable.

Part I covers Basic Energy Physics and Uses, with the expected topics of mechanical and electromagnetic energy, waves and light, and thermodynamics. Unexpected is a chapter on quantum physics, which the authors warn the reader will need to understand the nuclear energy topics in Part II. Each of the physics concepts is explained with great clarity as applied to tangible concepts, such as energy used while driving a car. Part II is dedicated to all aspects of Energy Sources, with chapters on nuclear, solar, biological, ocean, wind, and geothermal energy plus fossil fuels.

Again, each chapter contains relevant information, specifically the math and physics to break down each topic in an accessible manner, and then explains the relevant application in energy. Part III on Energy Systems Issues and Externalities contains a disjointed range of topics—from climate change to energy storage—and includes an additional chapter on the thermodynamics of energy efficiency.

Fortunately, each chapter in this part, and throughout the book, stands on its own, so one or two weak chapters in no way diminishes the overall effort. I see several uses for this book. It can serve as a textbook for senior college undergraduate students and graduate students to learn about energy. The content is broad and thorough and could be used by scientists, engineers, and policy experts with a strong background in physics.

The book can also be used to teach introductory and second-level physics. I will keep The Physics of Energy in my office to serve as a desk reference for energy concepts.

With topics plus appendices on basic concepts in physics and math, this will likely become a standard book, serving as a valued and fundamental resource to professors, students, and practitioners.

Reprints and Permissions. Jaffe, R. The Physics of Energy. MRS Bulletin 44, Download citation. Published : 27 September Issue Date : February Search SpringerLink Search. Download PDF. Authors Robert L. Jaffe View author publications. View author publications. Rights and permissions Reprints and Permissions. About this article. Cite this article Jaffe, R.

Physics of Energy - Ebook

Jetzt bewerten Jetzt bewerten. The Physics of Energy provides a comprehensive and systematic introduction to the scientific principles governing energy sources, uses, and systems. This definitive textbook traces the flow of energy from sources such as solar power, nuclear power, wind power, water power, and fossil fuels through its transformation in devices such as heat engines and electrical generators, to its uses including transportation, heating, cooling, and other applications. The flow of energy through the Earth's atmosphere and oceans, and systems issues including storage, electric grids, and efficiency and …mehr. DE

Energy plays a fundamental role in most natural systems, and in the physical theories we use to describe them. Energy also plays a central role in human civilization; energy-related issues are at the core of many current political and economic challenges, and our choices related to energy use and technologies will have profound impact on the future of Earth and humanity over the coming centuries. This colloquium will focus on ways in which the physics of energy systems can illuminate important real-world questions and on how energy and energy-related issues can be incorporated into science curricula. The speaker and colleague Robert Jaffe have been teaching an undergraduate course for students in all disciplines at MIT on "The Physics of Energy" for the last 10 years, and have recently completed a comprehensive award-winning text on energy science based on the course. To download: Right-click and choose "Save Link As Or, view as pdf.

Physics » The Physics of Energy (PDF)

This definitive new textbook provides a comprehensive and systematic introduction to the scientific principles governing energy sources, uses, and systems. It traces the flow of energy from sources such as solar power, nuclear power, wind power, water power, and fossil fuels through its transformation in devices such as heat engines and electrical generators to its uses—including transportation, heating, cooling, and other applications. This book will be an essential resource for any student, scientist, engineer, energy industry professional, or concerned citizen who has some mathematical and scientific background and an interest in understanding energy systems and issues quantitatively. Its comprehensive but modular form makes it an ideal text for a broad range of courses on energy science.

Jaffe, Robert L. Taylor, Washington [VerfasserIn]. Robert L. This definitive textbook traces the flow of energy from sources such as solar power, nuclear power, wind power, water power, and fossil fuels through its transformation in devices such as heat engines and electrical generators, to its uses including transportation, heating, cooling, and other applications. The flow of energy through the Earth's atmosphere and oceans, and systems issues including storage, electric grids, and efficiency and conservation are presented in a scientific context along with topics such as radiation from nuclear power and climate change from the use of fossil fuels.

The Physics of Energy provides a comprehensive and systematic introduction to the scientific principles governing energy sources, uses, and systems. Author s : Prof. Robert Jaffe and Prof.

Read 2 reviews from the world's largest community for readers. University Physics I Lecture Notes. Notice the huge difference between the two forms of nuclear energy, on the one hand, and the chemical energy from gasoline, on the other. Robert Jaffe and Prof.

Physics » The Physics of Energy (PDF)

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