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Here's another way to help motivate yourself to study, make flashcards, and take practice quizzes - optica hecht cuarta edicion espanol! The way that the book is written is for self-study or an independent student. It starts with a review of basic principles in physics, then moves into more complex topics like optics and geometrical optics. There are also sections on applications of optical systems in real life. The examples in the book are practical problems that you might come across when designing an optical system or when trying to measure how well it works. The book is split up into 12 chapters and contains two appendixes and a glossary. The first appendix has a table of symbols and their definitions, the second appendix has conversion tables for different unit systems. The last section - the glossary - has definitions for any terms that were used that you may not have been familiar with. The book also contains a preface, an introduction, and several key terms. The preface is written by the author which gives information about the book, who it’s for, and how it can help you learn more about optics. The introduction provides a brief overview of basic physics and will be helpful when trying to learn some of the physics that you might not have learned in high school. The 'Key Terms' section is a list of definitions for concepts that are used throughout the book that you may not be familiar with or may not know how to pronounce correctly. Optica Hecht Cuarta Edicion Espanol Author: Jorge R. HechtThis book is not meant for optics students who want to learn what they can do with optics, but for those that want to understand the principles and applications of the science. This ensures that the reader will be able to put together a clear picture of what optical systems and devices really do and how they work. Optica Hecht Cuarta Edicion Espanol Author: Jorge R. HechtIn this book, Katrin Lassnig presents an introduction to physical optics. In chapter 1 she explains the various ways in which light can be described as a wave or particle, how these different models are related, and why one model is often preferred over another. she also introduces the concept of the photon. The rest of the book is devoted to exploring how light behaves as a wave. The first chapter discusses photoelectric emission, Wien’s displacement law, and Planck’s law for blackbody radiation. Chapters 2-4 explain how light can interfere with itself (and how this leads to wave-particle duality) and then how it can be diffracted (and what this means for particles). Chapter 5 explains polarization, including Stokes parameters. Chapter 6 explains Fresnel diffraction and Fraunhofer diffraction, both caused by phase-only gratings. cfa1e77820
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