Classical Mechanics by Kulp, Christopher W.; Pagonis, Vasilis;

Rövid leírás:

This book provides an introduction to classical mechanics with a focus on computational methods by providing clear coverage of key topics and includes integrated instructions and treat and ents of computation. The second edition include two new appendices instructing the reader in both the Python and Mathematica languages.

Hosszú leírás:

Classical Mechanics: A Computational Approach with Examples using Python and Mathematica provides a unique, contemporary introduction to classical mechanics, with a focus on computational methods. In addition to providing clear and thorough coverage of key topics, this textbook includes integrated instructions and treatments of computation.

This newly updated and revised second edition includes two new appendices instructing the reader in both the Python and Mathematica languages. All worked example problems in the second edition contain both Python and Mathematica code. New end-of-chapter problems explore the application of computational methods to classical mechanics problems.

Full of pedagogy, it contains both analytical and computational example problems within the body of each chapter. The example problems teach readers both analytical methods and how to use computer algebra systems and computer programming to solve problems in classical mechanics. End-of-chapter problems allow students to hone their skills in problem solving with and without the use of a computer. The methods presented in this book can then be used by students when solving problems in other fields both within and outside of physics.

It is an ideal textbook for undergraduate students in physics, mathematics, and engineering studying classical mechanics.

Key Features:

• Gives readers the "big picture" of classical mechanics and the importance of computation in the solution of problems in physics


• Numerous example problems using both analytical and computational methods, as well as explanations as to how and why specific techniques were used


• Online resources containing specific example codes to help students learn computational methods and write their own algorithms

A solutions manual is available via the Routledge Instructor Hub and all example codes in the book are available via the Support Material tab, and at the book’s GitHub page: https://github.com/vpagonis/Classical_Mechanics_2nd_Edition

The Classical Mechanics textbook by Kulp and Pagonis does an excellent job of integrating a computational perspective, using both Mathematica and Python, into a traditional theoretical mechanics course. It is well written with meaningful computational examples which greatly assist in reinforcing and visualizing conceptual topics that are typically taught using a pen-paper approach. I strongly recommend the book. 

- Trinanjan Datta, Professor of Physics, Augusta University, July 2025

"Classical Mechanics” by Christopher Kulp and Vasilis Pagonis will be a valuable resource for any student wishing to develop a deep understanding of Newtonian, Lagrangian and Hamiltonian mechanics.  A clear exposition of the fundamental ideas and techniques is supported by numerous examples and applications; but alongside the traditional algebraic methods for solving problems in classical mechanics the book also covers computational techniques.  The authors show how symbolic and numeric computer codes can be used as powerful tools for investigating the behaviour of mechanical systems: as well as the strong pedagogical benefits of active learning, the use of computational tools greatly enlarges the range of systems that can be explored by the student.  Numerous examples are presented in both Python and Mathematica, and it should be possible for students to adapt codes given in the text to other languages. The power of the approach taken in the book, already evident in the first edition, is enhanced in the second edition by a greatly expanded number of computational examples.  In addition, two new appendices providing introductions to Python and Mathematica will make the book accessible even to students with little or no prior experience of these programming languages.

- Andrzej Wolski, University of Liverpool, July 2025

Tartalomjegyzék:

1. Foundations of Motion and Computation. Single-Particle Motion in One Dimesnison. 3. Motion in Two and Three Dimensions. 4. Momentum, Angular Momentum, and Multi-Particle Systems. 5. Energy. 6. Harmonic Oscillations. 7. The Calculus of Variations. 8. Lagrangian and Hamiltonian Dynamics. 9. Central Forces and Planetry Motions. 10. Motion in Non-Inertial Reference Frames. 11. Rigid Body Motion. 12. Coupled Oscillations. 13. Nonlinear Systems