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Physics
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University Physics with Modern Physics ISE
For instructors looking to engage students and enhance their problem-solving skills, choosing Bauer/Westfall’s University Physics, 3e, offers student-friendly, accessible content, tools, and resources that develop high-level problem-solving and critical thinking skills. University Physics with Modern Physics weaves exciting, contemporary physics throughout the text with coverage of the most recent research by the authors and others in areas such as energy, medicine, and the environment.These contemporary topics are explained in a way that your students will find real, interesting, and motivating. The new edition of University Physics with Modern Physics is also available in McGraw Hill Connect, featuring SmartBook 2.0, Virtual Labs for Physics, and more!
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University Physics with Modern Physics, Global Edition
Develop your understanding of how to use similar steps in your problem-solving approaches For courses in calculus-based physics. University Physics with Modern Physics, 15th edition, now in SI Units, is known for its clear and accessible approach to physics.With its step-by-step guidance and variety of problem types, the textbook will help you solve the most complex problems in physics. This edition draws on insights from several users to help you see patterns and make connections between problem types rather than simply plugging values into an equation. Key features include: Key Concept statements to help you learn to look beyond the objects of the problem and recognise the underlying principle or the problem typeNew!Key Example Variation Problems within the new Guided Practice sections group problems by type to help you recognise when you can solve them in similar ways, regardless of the wording or numbersWorked example "Key Concept" statements at the end of every example provide a brief summary of the key idea used in the solution to help you develop your conceptual understandingEnhanced End-of-Chapter problem sets help you reinforce problem-solving skills Pair this text with Mastering®Physics Mastering is the flexible teaching and learning platform that engages students through an active and immersive learning experience.By combining trusted author content with digital tools and a flexible platform, Mastering Physics personalises the learning experience to help you improve your results. Mastering®Physics is not included with this title.If you would like to purchase both the physical textbook and Mastering®Physics, search for: 9781292314945 Modern Physics, Global Edition + Mastering Physics with Pearson eText 'Mastering via Bundle' which consists of: Print textbookeTextbookMastering®Physics Students, Mastering should only be purchased when required by an instructor.If Mastering is a recommended/mandatory component of the course, please check with your instructor for the correct ISBN.Instructors, contact your Pearson representative for more information.
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Statistical Physics
This book presents an introduction to the main concepts of statistical physics, followed by applications to specific problems and more advanced concepts, selected for their pedagogical or practical interest.Particular attention has been devoted to the presentation of the fundamental aspects, including the foundations of statistical physics, as well as to the discussion of important physical examples.Comparison of theoretical results with the relevant experimental data (with illustrative curves) is present through the entire textbook.This aspect is facilitated by the broad range of phenomena pertaining to statistical physics, providing example issues from domains as varied as the physics of classical and quantum liquids, condensed matter, liquid crystals, magnetic systems, astrophysics, atomic and molecular physics, superconductivity and many more.This textbook is intended for graduate students (MSc and PhD) and for those teaching introductory or advanced courses on statistical physics. Key Features: A rigorous and educational approach of statistical physics illustrated with concrete examples. A clear presentation of fundamental aspects of statistical physics. Many exercises with detailed solutions. Nicolas Sator is Associate Professor at Sorbonne University, Paris, France.He is a member of the Laboratory of Theoretical Physics of Condensed Matter (LPTMC) and his research focuses on the physics of liquids. Nicolas Pavloff is Professor at Paris-Saclay University, France.He is a member of Laboratoire de Physique Théorique et Modèles Statistiques (LPTMS) and his domain of research is quantum fluid theory. Lénaïc Couëdel is Professor at the University of Sasktchewan, Saskatoon, Canada and researcher at CNRS, France.His research area is plasma physics with a focus on complex plasma crystals.
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How does a Roman balance scale work in physics?
A Roman balance scale works based on the principle of torque in physics. When an object is placed on one side of the scale, it exerts a downward force due to its weight. This force creates a torque around the pivot point of the scale. To balance the scale, an equivalent torque must be applied on the other side by adding weights until the scale is level. This demonstrates the concept of torque and the equilibrium of forces in physics.
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What is a Roman coin?
A Roman coin is a form of currency that was used in the Roman Empire. These coins were typically made of precious metals such as gold, silver, and bronze, and featured images of Roman emperors, gods, and symbols of power. Roman coins were used for trade and commerce throughout the empire and played a significant role in the economy. Today, Roman coins are highly sought after by collectors and historians for their historical and artistic value.
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Which Roman coin is this?
The Roman coin in the image appears to be a denarius, which was a silver coin used in ancient Rome. The denarius was first minted in the 3rd century BC and remained in circulation for several centuries. It typically featured the portrait of a Roman emperor on one side and various symbols and inscriptions on the other. The specific emperor and design on the coin would need to be examined to determine its exact identity.
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How can one pay with a collectible coin?
One can pay with a collectible coin by finding a willing buyer who is interested in the specific coin and is willing to exchange goods or services for it. The value of the coin will need to be agreed upon by both parties, and the transaction can be completed by physically exchanging the coin for the agreed-upon value. Alternatively, the coin can be sold to a dealer or collector for its market value, and the proceeds can then be used to make a purchase. It's important to note that some collectible coins may have a higher value as a collector's item than their face value, so it's important to research and understand the value of the coin before attempting to use it as payment.
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Neutrino Physics
When Kai Zuber’s pioneering text on neutrinos was published in 2003, the author correctly predicted that the field would see tremendous growth in the immediate future.In that book, Professor Zuber provided a comprehensive self-contained examination of neutrinos, covering their research history and theory, as well as their application to particle physics, astrophysics, nuclear physics, and the broad reach of cosmology; but now to be truly comprehensive and accurate, the field’s seminal reference needs to be revised and expanded to include the latest research, conclusions, and implications. Revised as needed to be equal to the research of today, Neutrino Physics, Third Edition delves into neutrino cross-sections, mass measurements, double beta decay, solar neutrinos, neutrinos from supernovae, and high-energy neutrinos, as well as entirely new experimental results in the context of theoretical models.Written to be accessible to graduate students and readers from diverse backgrounds, this edition, like the first, provides both an introduction to the field as well as the information needed by those looking to make their own contributions to it. And like the second edition, it whets the researcher’s appetite, going beyond certainty to pose those questions that still need answers. FeaturesPresents the only single-author comprehensive text on neutrino physicsIncludes experimental and theoretical particle physics and examines solar neutrinos and astroparticle implicationsOffers details on new developments and recent experiments
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Polymer Physics
This is a polymer physics textbook for upper level undergraduates and first year graduate students.Any student with a working knowledge of calculus, physics and chemistry should be able to read this book.The essential tools of the polymer physical chemist or engineer are derived in this book without skipping any steps.The book is a self-contained treatise that could also serve as a useful reference for scientists and engineers working with polymers.While no prior knowledge of polymers is assumed, the book goes far beyond introductory polymer texts in the scope of what is covered.The fundamental concepts required to fully understand polymer melts, solutions and gels in terms of both static structure and dynamics are explained in detail.Problems at the end of each Chapter provide the reader with the opportunity to apply what has been learned to practice.The book is divided into four parts. After an introduction in Chapter 1, where the necessary concepts from a first course on polymers are summarized, the conformations of single polymer chains are treated in Part 1.Part 2 deals with the thermodynamics of polymer solutions and melts, including the conformations of chains in those states.Part 3 applies the concepts of Part 2 to the formation and properties of polymer networks.Finally, Part 4 explains the essential aspects of how polymers move in both melt and solution states.In all cases, attention is restricted to concepts that are firmly entrenched in the field.
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Game Physics
Create physically realistic 3D Graphics environments with this introduction to the ideas and techniques behind the process.Author David H. Eberly includes simulations to introduce the key problems involved and then gradually reveals the mathematical and physical concepts needed to solve them.He then describes all the algorithmic foundations and uses code examples and working source code to show how they are implemented, culminating in a large collection of physical simulations.The book tackles the complex, challenging issues that other books avoid, including Lagrangian dynamics, rigid body dynamics, impulse methods, resting contact, linear complementarity problems, deformable bodies, mass-spring systems, friction, numerical solution of differential equations, numerical stability and its relationship to physical stability, and Verlet integration methods.This book even describes when real physics isn't necessary - and hacked physics will do.
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Particle Physics
An accessible and carefully structured introduction to Particle Physics, including important coverage of the Higgs Boson and recent progress in neutrino physics. Fourth edition of this successful title in the Manchester Physics seriesIncludes information on recent key discoveries including: An account of the discovery of exotic hadrons, byond the simple quark model; Expanded treatments of neutrino physics and CP violation in B-decays; An updated account of ‘physics beyond the standard model’, including the interaction of particle physics with cosmologyAdditional problems in all chapters, with solutions to selected problems available on the book’s websiteAdvanced material appears in optional starred sections
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Why does the coin behave that way in the physics experiment?
The coin behaves the way it does in the physics experiment due to the principles of angular momentum and conservation of energy. When the coin is spun, it gains angular momentum, which causes it to remain upright as it spins. Additionally, the conservation of energy ensures that the coin's kinetic energy is maintained, allowing it to continue spinning without falling over. These principles of physics govern the behavior of the coin in the experiment.
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What is an ancient Roman coin?
An ancient Roman coin is a form of currency that was minted and used in the Roman Empire during ancient times. These coins were typically made of precious metals such as gold, silver, and bronze, and featured various designs and inscriptions that reflected the political and cultural values of the Roman society. Roman coins were used for everyday transactions, as well as for propaganda purposes by emperors to showcase their power and authority. Today, ancient Roman coins are highly sought after by collectors and historians for their historical significance and artistic value.
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How much is this Roman coin worth?
The value of a Roman coin can vary greatly depending on factors such as its rarity, condition, and historical significance. Some Roman coins can be worth just a few dollars, while others can fetch thousands or even millions of dollars at auction. To determine the specific value of a Roman coin, it is best to consult with a numismatic expert or appraiser who can assess its unique characteristics and provide an accurate valuation.
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Why physics?
Physics is the fundamental science that seeks to understand the natural world and the fundamental laws that govern it. It provides a framework for understanding the behavior of matter and energy, from the smallest particles to the largest galaxies. Physics also has practical applications in technology, engineering, and medicine, and it helps us to address important societal challenges such as energy, climate change, and healthcare. Studying physics can also cultivate critical thinking, problem-solving skills, and a deeper appreciation for the beauty and complexity of the universe.
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