Products related to Physics:
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Linux Kernel Development
Linux Kernel Development details the design and implementation of the Linux kernel, presenting the content in a manner that is beneficial to those writing and developing kernel code, as well as to programmers seeking to better understand the operating system and become more efficient and productive in their coding. The book details the major subsystems and features of the Linux kernel, including its design, implementation, and interfaces.It covers the Linux kernel with both a practical and theoretical eye, which should appeal to readers with a variety of interests and needs. The author, a core kernel developer, shares valuable knowledge and experience on the 2.6 Linux kernel.Specific topics covered include process management, scheduling, time management and timers, the system call interface, memory addressing, memory management, the page cache, the VFS, kernel synchronization, portability concerns, and debugging techniques.This book covers the most interesting features of the Linux 2.6 kernel, including the CFS scheduler, preemptive kernel, block I/O layer, and I/O schedulers. The third edition of Linux Kernel Development includes new and updated material throughout the book: An all-new chapter on kernel data structuresDetails on interrupt handlers and bottom halvesExtended coverage of virtual memory and memory allocationTips on debugging the Linux kernelIn-depth coverage of kernel synchronization and lockingUseful insight into submitting kernel patches and working with the Linux kernel community
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Learn Physics With Functional Programming : A Hands-on Guide to Exploring Physics with Haskell
This book teaches you to solve physics problems using the functional programming paradigm.Ideal for first-time programmers and science aficionados alike, it introduces the Haskell programming language and encourages the writing of beautiful code to match the elegant ideas of theoretical physics.Haskell's powerful system of types is capable of encoding important mathematical structures like vectors, derivatives, integrals, scalar fields, and differential equations.
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Learning eBPF : Programming the Linux Kernel for Enhanced Observability, Networking, and Security
What is eBPF? With this revolutionary technology, you can write custom code that dynamically changes the way the kernel behaves.It's an extraordinary platform for building a whole new generation of security, observability, and networking tools. This practical book is ideal for developers, system administrators, operators, and students who are curious about eBPF and want to know how it works.Author Liz Rice, chief open source officer with cloud native networking and security specialists Isovalent, also provides a foundation for those who want to explore writing eBPF programs themselves. With this book, you will:Learn why eBPF has become so important in the past couple of yearsWrite basic eBPF code, and manipulate eBPF programs and attach them to eventsExplore how eBPF components interact with Linux to dynamically change the operating system's behaviorLearn how tools based on eBPF can instrument applications without changes to the apps or their configurationDiscover how this technology enables new tools for observability, security, and networking
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Understanding the Linux Kernel
In order to thoroughly understand what makes Linux tick and why it works so well on a wide variety of systems, you need to delve deep into the heart of the kernel.The kernel handles all interactions between the CPU and the external world, and determines which programs will share processor time, in what order.It manages limited memory so well that hundreds of processes can share the system efficiently, and expertly organizes data transfers so that the CPU isn't kept waiting any longer than necessary for the relatively slow disks.The third edition of Understanding the Linux Kernel takes you on a guided tour of the most significant data structures, algorithms, and programming tricks used in the kernel.Probing beyond superficial features, the authors offer valuable insights to people who want to know how things really work inside their machine. Important Intel-specific features are discussed. Relevant segments of code are dissected line by line.But the book covers more than just the functioning of the code; it explains the theoretical underpinnings of why Linux does things the way it does.This edition of the book covers Version 2.6, which has seen significant changes to nearly every kernel subsystem, particularly in the areas of memory management and block devices.The book focuses on the following topics: * Memory management, including file buffering, process swapping, and Direct memory Access (DMA) * The Virtual Filesystem layer and the Second and Third Extended Filesystems * Process creation and scheduling * Signals, interrupts, and the essential interfaces to device drivers * Timing * Synchronization within the kernel * Interprocess Communication (IPC) * Program execution Understanding the Linux Kernel will acquaint you with all the inner workings of Linux, but it's more than just an academic exercise.You'll learn what conditions bring out Linux's best performance, and you'll see how it meets the challenge of providing good system response during process scheduling, file access, and memory management in a wide variety of environments.This book will help you make the most of your Linux system.
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Physics
Written in the fourth century BCE by Greek philosopher and scientist Aristotle, Physics sets out to define the principles and causes of change, movement, or motion.For 2,000 years ― until discoveries by Galileo, Newton, and other scientists ― this treatise was the primary source for explanations of falling rocks, rising flames, the circulation of air, and other physical phenomena.It remains a foundational work of modern science and philosophy.
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Physics
For many centuries, Aristotle's Physics was the essential starting point for anyone who wished to study the natural sciencesThis book begins with an analysis of change, which introduces us to Aristotle's central concepts of matter and form, before moving on to an account of explanation in the sciences and a defence of teleological explanation.Aristotle then turns to detailed, important, and often ingenious discussions of notions such as infinity, place, void, time, and conintuity.He ends with an argument designed to show that the changes we experience in the world demand as their cause a single unchanging cause of all change, namely God. This is the first complete translation of Physics into English since 1930.It presents Aristotle's thought accurately, while at the same time simplifying and expanding the often crabbed and elliptical style of the original, so that it is very much easier to read.A lucid introduction and extensive notes explain the general structure of each section of the book and shed light on particular problems.ABOUT THE SERIES: For over 100 years Oxford World's Classics has made available the widest range of literature from around the globe.Each affordable volume reflects Oxford's commitment to scholarship, providing the most accurate text plus a wealth of other valuable features, including expert introductions by leading authorities, helpful notes to clarify the text, up-to-date bibliographies for further study, and much more.
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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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Which distro do you use, Linux users?
As an AI, I do not have personal preferences or the ability to use operating systems. However, Linux users often choose their distribution based on their specific needs and preferences. Some popular distributions include Ubuntu for its user-friendly interface, Fedora for its focus on the latest technologies, and Debian for its stability and reliability. Ultimately, the choice of distribution depends on the user's requirements and level of expertise.
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How can one downgrade the Linux kernel?
To downgrade the Linux kernel, you can follow these steps: 1. First, identify the version of the kernel you want to downgrade to and make sure it is available in your distribution's package repository. 2. Next, use the package manager of your Linux distribution to remove the current kernel version. For example, in Ubuntu, you can use the command `sudo apt-get remove linux-image-<version>`. 3. Then, install the desired kernel version using the package manager. For example, in Ubuntu, you can use the command `sudo apt-get install linux-image-<desired_version>`. 4. Finally, reboot your system to load the downgraded kernel. Keep in mind that downgrading the kernel may have implications for system stability and compatibility with hardware and software, so it's important to carefully consider the reasons for downgrading and to backup important data before proceeding.
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What makes the Linux kernel so special?
The Linux kernel is special for several reasons. Firstly, it is open-source, meaning that its source code is freely available for anyone to use, modify, and distribute. This has led to a large and active community of developers constantly improving and updating the kernel. Additionally, the Linux kernel is highly customizable and can be tailored to specific needs, making it suitable for a wide range of devices and systems. Finally, the Linux kernel is known for its stability, security, and performance, making it a popular choice for servers, embedded systems, and other critical applications.
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Why can't the Linux kernel be loaded?
The Linux kernel cannot be loaded because it is a fundamental part of the operating system that needs to be present in memory before any other software can run. The kernel is responsible for managing the system's resources, such as memory, CPU, and devices, and it provides essential services for other software to function. Without the kernel, the operating system cannot start and the computer cannot run any programs. Therefore, the kernel needs to be loaded into memory during the boot process in order for the operating system to become operational.
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Do you actually learn anything about programming in a physics degree?
Yes, a physics degree often includes coursework in programming, as it is an essential tool for analyzing and modeling physical systems. Students may learn programming languages such as Python, MATLAB, or C++ to write code for simulations, data analysis, and numerical methods. Additionally, programming skills are valuable for conducting research, analyzing experimental data, and developing computational models in physics. Therefore, a physics degree can provide a solid foundation in programming that is applicable to a wide range of scientific and technical fields.
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How can I activate a newer Linux kernel?
To activate a newer Linux kernel, you can follow these steps: 1. Download the desired kernel version from the official Linux kernel website. 2. Compile the kernel source code on your system using the appropriate tools and configurations. 3. Install the newly compiled kernel on your system and update the bootloader configuration to boot from the new kernel. 4. Reboot your system to activate the newer Linux kernel.
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How can one use Linux Ubuntu for programming server applications and similar tasks?
To use Linux Ubuntu for programming server applications and similar tasks, one can start by installing the necessary programming languages and tools such as Python, Ruby, Node.js, or Java. Ubuntu's package manager, apt, can be used to easily install these tools. Next, one can set up a development environment by installing a text editor or an integrated development environment (IDE) such as Visual Studio Code or IntelliJ IDEA. Additionally, Ubuntu's terminal can be used to run server applications and manage the server environment. Finally, one can utilize Ubuntu's robust networking capabilities to configure and manage server applications, such as setting up web servers, databases, and other server-related tasks.
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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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