Computational Physics 2nd Edition

Computational Physics — 2nd Edition by Michael Bestehorn is a modern, hands-on guide that equips students and researchers with the numerical tools needed to model complex physical systems. Clear, concise, and updated, this edition bridges theory and practice to help you turn mathematical models into reliable simulations.

Begin with accessible explanations of core numerical methods — from ordinary and partial differential equations to Monte Carlo techniques, spectral and finite-difference schemes, and stability analysis. Bestehorn emphasizes intuitive understanding and practical implementation, offering step-by-step algorithm descriptions, illustrative examples, and exercises that reinforce learning for coursework and independent study.

Ideal for physics undergraduates, graduate students, and practitioners in engineering and computational science, this book supports classroom teaching and research across universities and labs worldwide. Real-world applications demonstrate how computational physics solves problems in mechanics, electromagnetism, fluid dynamics, and statistical physics, making the content relevant to both academic and applied projects.

Readers will appreciate the book’s balance of mathematical rigor and approachable prose, plus its focus on reproducible, efficient algorithms that scale to modern computing environments. Whether you’re building simulations for class projects or advancing research models, this 2nd edition is a dependable reference that sharpens your numerical intuition and programming skills.

Enhance your toolkit with a resource praised for clarity, relevance, and practical depth. Order your copy of Michael Bestehorn’s Computational Physics, 2nd Edition today and start turning complex physical problems into computable solutions.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.