We have done it for you and we hope that the list of works on physics will be really useful for you. In its beginnings, physics was part of philosophy, more specifically during the classical period. This was so until the arrival of the Enlightenment and the Industrial Revolution, a historical moment in which the sciences were separated as disciplines independent from philosophy. This also brought consequences such as the phenomenon of encyclopedism, with the division of knowledge that prevails until today.
Physics studies the phenomena of the universe and the laws that govern it. In fact, it explains everything that surrounds us, from the smallest to the most immense; from the indivisible particles to the planets. The way to materialize the findings occurs through systematic study, using the scientific method for hypothesis testing. Throughout history, physics has explained phenomena such as time, space, matter, energy, movement, light and sound.
Similarly, it studies the interaction between these elements, resulting in turn in other phenomena such as gravity, electromagnetism and nuclear forces. Physics is divided into several branches, among which are: acoustics, electromagnetism, mechanics, fluid mechanics, optics, thermodynamics, cosmology, quantum, among others. As you see, it is a science that encompasses many specialties. Acoustics : Study the nature of sound, where it comes from, how it spreads, etc. Thermodynamics : Studies energy and heat, as well as the systems through which they are preserved and transmitted.
Electromagnetism : Studies energy in matter and space. Fluid Mechanics : Studies the functioning or dynamics of liquid fluids and gases. With our collection you can enjoy the following subtopics: Basic physics, advanced, applied, acoustics, particle physics, electromagnetism, fluid mechanics, among others.
Advances in physics have made life easier for us today. Some legacies that it has left in modern society are: safe buildings, x-rays, the microwave oven, the GPS location system, laser technology, ultrasound, magnetic resonance and radiotherapy. Our collection of books on physics will help you immerse yourself in this interesting science.
Nowadays the world cannot be conceived without its findings, that is why we think that more people are interested in knowing more about it. Especially, it is being studied in combination with other sciences such as biology or engineering to give as a result advances that represent a before and after in humanity. Do not miss our great collection of the best books on physics, thought for you. In general terms we could say that physics studies the basic elementary relationships between inanimate bodies and the other natural sciences study the relationships between more complex systems.
For example, physics studies the structure of the atom and molecules , while chemistry studies the phenomena that occur between atoms and molecules. There are other natural sciences that also study phenomena between inanimate bodies. For example, chemistry and astronomy, or more precisely, astrophysics. These sciences have a close connection with physics and it is difficult to say where one ends and the other begins.
If you want to get into the exciting world of physics these book selections will give you an initial and general idea about all the topics that physics deals with. Quantum physics is the branch of science that studies the characteristics, behaviors, and interactions of particles at the atomic and subatomic level.
The quantum concept was created in the year , in the proposal of the quantum theory postulated by Planck , where he explained the radiation of the black body. The book is addressed to undergraduate and graduate students in physics and will also be appreciated by many professional physicists.
It will likewise be of interest to students, researchers and teachers of other natural sciences, as well as to engineers, high-school teachers and the curious general reader, who will come to understand what physics is about and how it describes the different phenomena of Nature.
Not only will readers of this book learn much about physics, they will also learn to love it. Learn physics at your own pace without an instructor Basic Physics: A Self-Teaching Guide, 3rd Edition is the most practical and reader-friendly guide to understanding all basic physics concepts and terms.
The expert authors take a flexible and interactive approach to physics based on new research-based methods about how people most effectively comprehend new material. The book takes complex concepts and breaks them down into practical, easy to digest terms. Each chapter features a list of objectives so that students know what they should be learning from each chapter, test questions, and exercises that inspire deeper learning about physics. High school students, college students, and those re-learning physics alike will greatly enhance their physics education with the help of this one-of-a-kind guide.
The third edition of this book reflects and implements new, research-based methods regarding how people best learn new material. As a result, it contains a flexible and interactive approach to learning physics. The opportunity to present the physics of radioactive processes in some detail apart from topics such as instrumentation which conventionally compete with it for spacer is most welcome. The material is intended to give a fairly complete introduction to radiation physics to those who which to have more than a descriptive understanding of the subject.
A familiarity with calculus and differential equations is also assumed. A thorough discussion of atomic structure follows with emphasis on the theory of the multielectron atom, characteristic X-rays, and the Auger effect.
Volume II treats the subjects of nuclear structure, nuclear decay processes, the interaction of radiation with matter, and the mathematics of radioactive decay. The fast, easy way to master the fundamentals of physics Here is the most practical, complete, and easy-to-use guideavailable for understanding physics and the physical world.
Even ifyou don't consider yourself a "science" person, this book helpsmake learning key concepts a pleasure, not a chore. Whether youneed help in a course, want to review the basics for an exam, orsimply have always been curious about such physical phenomena asenergy, sound, electricity, light, and color, you've come to theright place!
Understand the rules that make the universe run. Understanding the laws of physics is essential for all scientific studies, but many students are intimidated by their complexities. This completely revised and updated book makes it easy to understand the most important principles. Each chapter is introduced by anecdotes that directly apply the concepts to contemporary life and ends with practice problems—with complete solutions—to reinforce the concepts.
Humorous illustrations and stories complete the text, making it not only easy but fun to learn this important science. This concise treatment embraces, in four parts, all the main aspects of theoretical physics. Recent topics such as holography and quantum cryptography are included.
The book summarizes what a graduate student, physicist working in industry, or a physics teacher should master during his or her degree course. A basic introductory physics Self-Teaching Guide for liberal arts physics to compete with and compliment Hewitt, but with more end of chapter problems.
Could be used as a programmed guide to a one-semester physics course or as a supplement to a full-year. Also for self-study. The new edition of this textbook presents a detailed description of basic semiconductor physics. The text covers a wide range of important phenomena in semiconductors, from the simple to the advanced.
Four different methods of energy band calculations in the full band region are explained: local empirical pseudopotential, non-local pseudopotential, KP perturbation and tight-binding methods. The effective mass approximation and electron motion in a periodic potential, Boltzmann transport equation and deformation potentials used for analysis of transport properties are discussed.
Further, the book examines experiments and theoretical analyses of cyclotron resonance in detail. Optical and transport properties, magneto-transport, two-dimensional electron gas transport HEMT and MOSFET and quantum transport are reviewed, while optical transition, electron-phonon interaction and electron mobility are also addressed.
Energy and electronic structure of a quantum dot artificial atom are explained with the help of Slater determinants. The physics of semiconductor lasers is also described, including Einstein coefficients, stimulated emission, spontaneous emission, laser gain, double heterostructures, blue lasers, optical confinement, laser modes, and strained quantum well lasers, offering insights into the physics of various kinds of semiconductor lasers.
In this third edition, energy band calculations in full band zone with spin-orbit interaction are presented, showing all the matrix elements and equipping the reader to prepare computer programs of energy band calculations. The Luttinger Hamiltonian is discussed and used to analyze the valence band structure. Numerical calculations of scattering rate, relaxation time, and mobility are presented for typical semiconductors, which are very helpful for understanding of transport.
Energy band structures and effective masses of nitrides such as GaN, InN, AlN and their ternary alloys are discussed because they are very important materials for the blue light emission, and high power devices with and high frequency. Learning and teaching with this textbook is supported by problems and solutions in the end of the chapters.
The book is written for bachelor and upper undergraduate students of physics and engineering. Basic Physics of Nanoscience: Traditional Approaches and New Aspects at the Ultimate Level deals with the description of properties at the Nano level and self-organizing quantum processes of Nano systems. Additionally, the book analyzes self-organizing quantum processes—which are essential in the design of new Nano systems—in detail, and explores new aspects related to the quantum theoretical nature of time, leading to an expansion of the basic laws through nanotechnology.
Finally, the book explores the effect of nanotechnological manipulations of brain functions and the need for the development of reliable models for the matter-mind complex.
This innovative approach to understanding Nano systems makes Basic Physics of Nanoscience a vital resource for advanced students and researchers of physics, materials science, and neuroscience.
As in the previous editions, the authors have clearly defined the principles of clinical measurement. Mathematics are kept to a simple, understandable level with the frequent use of practical examples.
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