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Conservation Laws (Introductory Physics Textbooks series, volume 2). by Benjamin Crowell | Jan 1, Usually ships within 2 to 3 weeks. More Buying Choices.
Table of contents

The hallmark of any good introductory physics series is its treatment of Newton's laws of motion. These laws are difficult concepts for most readers for a number of reasons: they have a reputation as being difficult concepts; they require the mastery of multiple sub-skills; and problems involving these laws can be cast in a variety of formats. Classical Mechanic: Kinematics and uniformly accelerated motion focuses on the difference between asking, 'How does an object move? This distinction requires a paradigm shift in the mind of the reader.

Symmetry → conservation laws

Therefore, the reader must train themselves to clarify, 'Am I trying to describe how the object moves or why the object moves? Classical Mechanics: Tools and vectors is simply about transmitting information. The conventions used to transmit certain types of numerical information are crucial concepts that must be addressed at the outset of any series on classical mechanics by discussing scalars versus vectors for example.

Author: Sharon Ann Holgate. When you hear about the latest physics breakthroughs on the news, or attend university or college physics courses, it can be easy to think of physics as just an academic subject. But physics does much more than describe how matter and energy behave. It reveals how almost everything around us and, even, within us works.

In fact, physics-based technologies are integral to many of the work and leisure activities we carry out everyday without giving science a second thought. This book explores the use of physics in various sports. We will see how professional athletes, coaches and amateurs in different sports use physics, and physics-based technologies, to participate in that sport and raise their performance levels as high as possible. Author: Matt Marone. The combination of Asian studies and Physics is a unique blend rarely found in a Western scientific classroom.

The field of Asian studies is rapidly growing and branching out into scientific realms. At the same time, there is a growing need to educate our young people in science, technology and mathematics STEM. This book presents scientific principles through the technology and inventions of ancient China. It explores these ideas in their historical context, as well as through the lens of current scientific understanding. Author: Kelsey Davenport. Yet its negotiation and success were not inevitable. This book aims to address the developments that led to the negotiation of the treaty, examine its implementation, and address challenges that the NPT faces going forward.

Authors: Sebastian Deffner and Steve Campbell.

Essentials

This book introduces the emerging field of quantum thermodynamics, with a focus on its relation to quantum information and its implications for quantum computers and next generation quantum technologies. Aimed at graduate level physics students with a working knowledge of quantum mechanics and statistical physics this text introduces the reader to some more state-of-the-art topics in this exciting and rapidly developing research field.

Leonhard Euler's Letters to a German Princess on Various Subjects in Physics and Philosophy is a milestone in the history of physics textbooks and the instruction of women in the sciences. It also covers views of its author on epistemology, religion, and innovations in scientific equipment, including telescopes and microscopes. Today, years later, we study this work of Euler's as a foundation for the history of physics teaching and analyze the letters from an historical and pedagogical point of view.

This book provides a general introduction to nanogels, and designs of various stimuli-sensitive nanogels that are able to control drug release in response to specific stimuli. Nanogels are three-dimensional nanosized networks that formed by physically or chemically crosslinking polymers. They have highly interesting properties such as biocompatibility, high stability, particle size adjustment, drug loading capability and modification of the surface for active targeting.

They can respond to stimuli which results in the controlled release of drug and targeting of the site. Author: Robert C Bishop. This book explores whether physics points to a reductive or an emergent structure of the world and proposes a physics-motivated conception of emergence that leaves behind many of the problematic intuitions shaping the philosophical conceptions.

Examining several detailed case studies reveals results that point to stability conditions playing a crucial, though underappreciated, role in the physics of emergence. This contextual emergence has thought-provoking consequences for physics and beyond. Authors: Leo Rodriguez and Shanshan Rodriguez. Holographic dualities are at the forefront of contemporary physics research, peering into the fundamental nature of our universe and providing best attempt answers to humankind's bold questions about basic physical phenomena.

Yet, the concepts, ideas and mathematical rigors associated with these dualities have long been reserved for the specific field researchers and experts. This book shatters this long held paradigm by bringing several aspects of holography research into the class room, starting at the college physics level and moving up from there. Author: Bernard V Liengme.

Maple is a comprehensive symbolic mathematics application which is well suited for demonstrating physical science topics and solving associated problems. This book records the author's journey of discovery; he was familiar with SMath but not with Maple and set out to learn the more advanced application. It leads readers through the basic Maple features with physical science worked examples, giving them a firm base on which to build if more complex features interest them. Author: Bruce Cameron Reed.


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The development of man's understanding of planetary motions is the crown jewel of Newtonian mechanics. This book offers a concise but self-contained handbook-length treatment of this historically important topic for students at about the third-year-level of an undergraduate physics curriculum. After opening with a review of Kepler's three laws of planetary motion, it proceeds to the analyze the general dynamics of 'central force' orbits in spherical coordinates, how elliptical orbits satisfy Newton's gravitational law, and how the geometry of ellipses relates to physical quantities, such as energy and momentum.

Exercises are provided, and derivations are set up in such a way that readers can gain analytic practice by filling in the missing steps.

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A brief bibliography lists sources for readers who wish to pursue further study on their own. Author: Nicolas A Pereyra. This book gives a rigorous, physics focused, introduction to set theory that is geared towards natural science majors.


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  4. We present the science major with a robust introduction to set theory, focusing on the specific knowledge and skills that will unavoidably be needed in calculus topics and natural science topics in general, rather than taking a philosophical-math-fundamental oriented approach that is commonly found in set theory textbooks. Author: Maria Benelmekki.

    Free Conservation Laws (Introductory Physics Textbooks Series, Volume 2)

    Nanomaterials and nanostructures are the original product of nanotechnology, and the key building blocks for enabling technologies. In this context, this book presents a concise overview of the synthesis and characterization methods of nanomaterials and nanostructures, while integrating facets of physics, chemistry, and engineering. The book summarizes the fundamentals and technical approaches in synthesis, and processing of nanostructures and nanomaterials, giving the reader a systematic and quick picture of the field.

    Author: Marc R Roussel. This book uses a hands-on approach to nonlinear dynamics using commonly available software, including the free dynamical systems software Xppaut, Matlab or its free cousin, Octave and the Maple symbolic algebra system. Detailed instructions for various common procedures, including bifurcation analysis using the version of AUTO embedded in Xppaut, are provided. This book also provides a survey that can be taught in a single academic term covering a greater variety of dynamical systems discrete versus continuous time, finite versus infinite-dimensional, dissipative versus conservative than is normally seen in introductory texts.

    Numerical computation and linear stability analysis are used as unifying themes throughout the book. Despite the emphasis on computer calculations, theory is not neglected, and fundamental concepts from the field of nonlinear dynamics such as solution maps and invariant manifolds are presented. The purpose of this book is to bring comets into the living rooms of general households, to familiarize politicians with these fascinating objects when they ponder funding for comet research, to teach children and young students and to provide teaching tools about these very unusual objects in our skies.

    The presentation is very comprehensive in its description of orbits around the Sun, the development of the coma escaping atmosphere from a comet's nucleus and source of all activities, various types of comet tails, trailing as well as leading as a comet orbits our Sun, ancient beliefs and explanations of these phenomena and the most recent discovery of the first interstellar comet.

    Author: Panagiotis Kotetes. This book provides an introduction to topological matter with a focus on insulating bulk systems. A number of prerequisite concepts and tools are first laid out, including the notion of symmetry transformations, the band theory of semiconductors and aspects of electronic transport. The main part of the book discusses realistic models for both time-reversal-preserving and -violating topological insulators, as well as their characteristic responses to external perturbations.

    Special emphasis is given to the study of the anomalous electric, thermal, and thermoelectric transport properties, the theory of orbital magnetisation, and the polar Kerr effect. The topological models studied throughout this book become unified and generalised by means of the tenfold topological-classification framework and the respective systematic construction of topological invariants. This approach is further extended to topological superconductors and topological semimetals.

    This book covers a wide range of topics and aims at the transparent presentation of the technical aspects involved. For this purpose, homework problems are also provided in dedicated Hands-on sections. Given its structure and the required background level of the reader, this book is particularly recommended for graduate students or researchers who are new to the field.

    Table of Contents

    Author: James J Kolata. Albert Einstein's General Theory of Relativity, published in , made a remarkable prediction: gravitational radiation. Just like light electromagnetic radiation , gravity could travel through space as a wave and affect any objects it encounters by alternately compressing and expanding them. However, there was a problem. This grid carries the electricity that runs the car.

    Laws of motion - Conservation Of Momentum