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Julia programming for physics applications

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Julia programming for physics applications/ by R. Gökhan Türeci, Hamdi Dağıstanlı, İlkay Türk Çakır.
Author:	Türeci, R. Gökhan.
other author:	Dağıstanlı, Hamdi.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xvii, 259 p. :ill. (some col.), digital ; : 24 cm.;
Contained By:	Springer Nature eBook
Subject:	Julia (Computer program language) -
Online resource:	https://doi.org/10.1007/978-3-031-84716-5
ISBN:	9783031847165

Julia programming for physics applications
Türeci, R. Gökhan.

Julia programming for physics applications[electronic resource] /by R. Gökhan Türeci, Hamdi Dağıstanlı, İlkay Türk Çakır. - Cham :Springer Nature Switzerland :2025. - xvii, 259 p. :ill. (some col.), digital ;24 cm.

Chapter 1 Introduction -- Chapter 2 Variables and Operators -- Chapter 3 Loops and Conditional Situations -- Chapter 4 Plots in Julia -- Chapter 5 Symbolic Calculations in Julia -- Chapter 6 Data Frames -- Chapter 7 Julia Programming in Mechanical Applications -- Chapter 8 Julia Programming Applications in Electromagnetism -- Chapter 9 Julia Programming Applications in Waves -- Chapter 10 Julia Programming Applications in Modern Physics -- Chapter 11 Julia Programming Applications in Nuclear Physics -- Chapter 12 Julia Programming Applications in Solid State Physics -- Chapter 13 Julia Programming Applications in High Energy Physics -- Chapter 14 Julia Programming Applications in Astrophysics -- Chapter 15 Julia Programming Applications in Statistics.

Navigating the realm where physics intersects with programming, this book serves as an indispensable guide for students embarking on their journey with Julia. Whether it is plotting equations or analyzing experimental data, mastering computational tools is essential for unraveling the complexities of physical phenomena. Julia, an open-source programming language, emerges as the bridge between simplicity and efficiency. While Python, another open-source language, offers user-friendly syntax, its line-by-line execution often leads to sluggish performance. Julia, however, embodies the ethos of being "as easy as Python but as fast as C/C++," tailored specifically for scientific computing with ongoing developmental enhancements. Notably, Microsoft's AI assistant Copilot is crafted in Julia, showcasing its versatility and adaptability. Within these pages, readers encounter cutting-edge research illustrating Julia's prowess across diverse domains. From streamlined code composition facilitated by modular architecture to the integration of artificial intelligence and graphical visualization, this book illuminates Julia's multifaceted applications. It notably avoids delving into AI algorithms, instead focusing on equipping readers with foundational Julia skills applicable to physics problem-solving. Julia boasts an extensive library ecosystem tailored for scientific computing, empowering users with tools for tasks ranging from differential equation solving to statistical analysis. Its robust support for parallel processing enables swift computations on multi-core systems, a crucial asset for handling voluminous datasets with finesse. Starting with a primer on Julia fundamentals, the book gradually transitions to practical applications across various physics subdomains. From nuclear physics to high-energy phenomena, each chapter offers hands-on exercises that cement comprehension and foster proficiency in employing computational methods to unravel complex physical phenomena. Designed as a precursor to deeper explorations into AI applications within scientific realms, this book lays the groundwork for harnessing Julia's capabilities in physics-centric contexts.

ISBN: 9783031847165

Standard No.: 10.1007/978-3-031-84716-5doiSubjects--Topical Terms:

1197675
Julia (Computer program language)

LC Class. No.: QA76.73.J85

Dewey Class. No.: 005.133

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505 0 $a Chapter 1 Introduction -- Chapter 2 Variables and Operators -- Chapter 3 Loops and Conditional Situations -- Chapter 4 Plots in Julia -- Chapter 5 Symbolic Calculations in Julia -- Chapter 6 Data Frames -- Chapter 7 Julia Programming in Mechanical Applications -- Chapter 8 Julia Programming Applications in Electromagnetism -- Chapter 9 Julia Programming Applications in Waves -- Chapter 10 Julia Programming Applications in Modern Physics -- Chapter 11 Julia Programming Applications in Nuclear Physics -- Chapter 12 Julia Programming Applications in Solid State Physics -- Chapter 13 Julia Programming Applications in High Energy Physics -- Chapter 14 Julia Programming Applications in Astrophysics -- Chapter 15 Julia Programming Applications in Statistics.
520 $a Navigating the realm where physics intersects with programming, this book serves as an indispensable guide for students embarking on their journey with Julia. Whether it is plotting equations or analyzing experimental data, mastering computational tools is essential for unraveling the complexities of physical phenomena. Julia, an open-source programming language, emerges as the bridge between simplicity and efficiency. While Python, another open-source language, offers user-friendly syntax, its line-by-line execution often leads to sluggish performance. Julia, however, embodies the ethos of being "as easy as Python but as fast as C/C++," tailored specifically for scientific computing with ongoing developmental enhancements. Notably, Microsoft's AI assistant Copilot is crafted in Julia, showcasing its versatility and adaptability. Within these pages, readers encounter cutting-edge research illustrating Julia's prowess across diverse domains. From streamlined code composition facilitated by modular architecture to the integration of artificial intelligence and graphical visualization, this book illuminates Julia's multifaceted applications. It notably avoids delving into AI algorithms, instead focusing on equipping readers with foundational Julia skills applicable to physics problem-solving. Julia boasts an extensive library ecosystem tailored for scientific computing, empowering users with tools for tasks ranging from differential equation solving to statistical analysis. Its robust support for parallel processing enables swift computations on multi-core systems, a crucial asset for handling voluminous datasets with finesse. Starting with a primer on Julia fundamentals, the book gradually transitions to practical applications across various physics subdomains. From nuclear physics to high-energy phenomena, each chapter offers hands-on exercises that cement comprehension and foster proficiency in employing computational methods to unravel complex physical phenomena. Designed as a precursor to deeper explorations into AI applications within scientific realms, this book lays the groundwork for harnessing Julia's capabilities in physics-centric contexts.
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