Requirements: .PDF reader, 35.5 MB
Overview: This book provides an accessible introduction to intermediate-level electrodynamics with computational approaches to complement a traditional mathematical treatment of the subject. It covers key topics in electrodynamics, such as electromagnetic fields, forces, potentials, and waves as well as Special Theory of Relativity. Through intuition-building examples and visualizations in the Python programming language, it helps readers to develop technical computing skills in numerical and symbolic calculations, modeling and simulations, and visualizations. Python is a highly readable and practical programming language, making this book appropriate for students without extensive programming experience. This book can serve as an electrodynamics textbook for undergraduate physics and engineering students in their second or third years, who are studying intermediate- or advanced-level electrodynamics and who want to learn techniques for scientific computing at the same time. This book will also appeal to Computer Science students who want to see how their computer programming skills may be applied to science, particularly to physics, without needing too much background physics knowledge. Perhaps the most challenging step in following the codes in this book may be the first step of getting started with Python. Fortunately, there are a few user-friendly options at this point of writing. The first option is a free, cloud-based Python environment like Google Colaboratory (or Colab). You can open, edit, and run Python codes on a Jupyter Notebook environment using a browser.
Genre: Non-Fiction > Tech & Devices
Download Instructions:
https://ouo.io/DEtVK1
https://katfile.com/tliiwkrehdyu/Electr … s.pdf.html
https://rapidgator.net/file/ae608d9cb49 … s.pdf.html.
