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BukuFisikaModernKennethKranepdf
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Barbara Guenther
Dec 10, 2023, 4:36:11 AM12/10/23
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Modern Physics by Kenneth S. Krane: A Review
Modern Physics is a textbook written by Kenneth S. Krane, a professor of physics at Oregon State University. The book covers the topics of relativity, quantum mechanics, statistical physics, nuclear physics, high energy physics, astrophysics, and cosmology. It is intended for second-year undergraduate students of science and engineering who have already taken a basic physics course.
The book aims to provide a balanced presentation of both the historical development and the experimental evidence of modern physics concepts. It also includes many worked examples, exercises, and applications that illustrate the relevance and importance of modern physics in various fields of science and technology. The book has been widely used and praised by students and instructors for its clarity, organization, and pedagogical features.
BukuFisikaModernKennethKranepdf
Download File https://ckonti.com/2wJzCe
The book has three editions, the latest one published in 2012 by Wiley. The third edition has been updated with new topics, examples, and problems that reflect the current state of research and discovery in modern physics. The book also has a companion website that offers additional resources for students and instructors, such as simulations, animations, videos, and solutions.
Modern Physics is a comprehensive and accessible introduction to the fascinating and challenging world of modern physics. It is suitable for anyone who wants to learn more about the fundamental theories and phenomena that shape our understanding of nature at the smallest and largest scales.
In this article, we will review some of the main topics and concepts covered in Modern Physics by Kenneth S. Krane. We will also highlight some of the features and benefits of the book for students and instructors.
Relativity
The first part of the book deals with the theory of relativity, which was developed by Albert Einstein in the early 20th century. The theory of relativity consists of two parts: the special theory of relativity and the general theory of relativity. The special theory of relativity describes the effects of motion on space and time, such as length contraction, time dilation, mass-energy equivalence, and the Lorentz transformation. The general theory of relativity extends the special theory to include gravity, which is explained as a result of the curvature of space-time caused by mass and energy.
The book introduces the basic concepts and principles of relativity using simple examples and diagrams. It also shows how relativity can be applied to various phenomena, such as the twin paradox, the Doppler effect, the gravitational redshift, and the gravitational lensing. The book also discusses some of the experimental tests and observations that have confirmed the predictions of relativity, such as the Michelson-Morley experiment, the Eddington experiment, the gravitational wave detection, and the black hole imaging.
Quantum Mechanics
The second part of the book deals with quantum mechanics, which is the branch of physics that describes the behavior of matter and energy at the atomic and subatomic scales. Quantum mechanics reveals that nature is fundamentally probabilistic, discrete, and non-local. Some of the key concepts and principles of quantum mechanics include the wave-particle duality, the uncertainty principle, the SchrÃdinger equation, the superposition principle, the measurement problem, and the entanglement phenomenon.
The book introduces quantum mechanics using a historical approach, tracing its development from the early experiments on light and atoms to the modern interpretations and applications. It also shows how quantum mechanics can be used to explain various phenomena, such as the photoelectric effect, the Compton effect, the Bohr model of the atom, the hydrogen spectrum, the electron spin, and the tunneling effect. The book also discusses some of the extensions and implications of quantum mechanics, such as quantum statistics, quantum information, quantum cryptography, and quantum computing.
Statistical Physics
The third part of the book deals with statistical physics, which is
d8cbe59d7d
Modern Physics is a textbook written by Kenneth S. Krane, a professor of physics at Oregon State University. The book covers the topics of relativity, quantum mechanics, statistical physics, nuclear physics, high energy physics, astrophysics, and cosmology. It is intended for second-year undergraduate students of science and engineering who have already taken a basic physics course.
The book aims to provide a balanced presentation of both the historical development and the experimental evidence of modern physics concepts. It also includes many worked examples, exercises, and applications that illustrate the relevance and importance of modern physics in various fields of science and technology. The book has been widely used and praised by students and instructors for its clarity, organization, and pedagogical features.
BukuFisikaModernKennethKranepdf
Download File https://ckonti.com/2wJzCe
The book has three editions, the latest one published in 2012 by Wiley. The third edition has been updated with new topics, examples, and problems that reflect the current state of research and discovery in modern physics. The book also has a companion website that offers additional resources for students and instructors, such as simulations, animations, videos, and solutions.
Modern Physics is a comprehensive and accessible introduction to the fascinating and challenging world of modern physics. It is suitable for anyone who wants to learn more about the fundamental theories and phenomena that shape our understanding of nature at the smallest and largest scales.
In this article, we will review some of the main topics and concepts covered in Modern Physics by Kenneth S. Krane. We will also highlight some of the features and benefits of the book for students and instructors.
Relativity
The first part of the book deals with the theory of relativity, which was developed by Albert Einstein in the early 20th century. The theory of relativity consists of two parts: the special theory of relativity and the general theory of relativity. The special theory of relativity describes the effects of motion on space and time, such as length contraction, time dilation, mass-energy equivalence, and the Lorentz transformation. The general theory of relativity extends the special theory to include gravity, which is explained as a result of the curvature of space-time caused by mass and energy.
The book introduces the basic concepts and principles of relativity using simple examples and diagrams. It also shows how relativity can be applied to various phenomena, such as the twin paradox, the Doppler effect, the gravitational redshift, and the gravitational lensing. The book also discusses some of the experimental tests and observations that have confirmed the predictions of relativity, such as the Michelson-Morley experiment, the Eddington experiment, the gravitational wave detection, and the black hole imaging.
Quantum Mechanics
The second part of the book deals with quantum mechanics, which is the branch of physics that describes the behavior of matter and energy at the atomic and subatomic scales. Quantum mechanics reveals that nature is fundamentally probabilistic, discrete, and non-local. Some of the key concepts and principles of quantum mechanics include the wave-particle duality, the uncertainty principle, the SchrÃdinger equation, the superposition principle, the measurement problem, and the entanglement phenomenon.
The book introduces quantum mechanics using a historical approach, tracing its development from the early experiments on light and atoms to the modern interpretations and applications. It also shows how quantum mechanics can be used to explain various phenomena, such as the photoelectric effect, the Compton effect, the Bohr model of the atom, the hydrogen spectrum, the electron spin, and the tunneling effect. The book also discusses some of the extensions and implications of quantum mechanics, such as quantum statistics, quantum information, quantum cryptography, and quantum computing.
Statistical Physics
The third part of the book deals with statistical physics, which is
d8cbe59d7d
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