Introduction To Advanced Electrodynamics by Kaushik Bhattacharya (Author)
- Publisher: PHYSICS
- Availability: In Stock
- SKU: 48778
- Number of Pages: 377
Rs.890.00
Rs.1,195.00
Tags: advanced electrodynamics , advanced physics book , advanced physics topics , antennas , best books , Best Price , Best Selling Books , black white Pakistan print , classical electrodynamics , electrodynamics concepts , electrodynamics for postgraduates , electrodynamics problem sets , Electrodynamics textbook , electromagnetic field theory , electromagnetic radiation , electromagnetic waves , electromagnetics applications , EM theory , EM wave propagation , field theory , Introduction To Advanced Electrodynamics , Kaushik Bhattacharya , mathematical electrodynamics , Maxwellโs equations , modern physics book , Online Bookshop , physics for undergraduates , physics reference book , plasma electrodynamics , postgraduate physics syllabus , quantum electrodynamics bridge , radiation theory , relativistic electrodynamics , research in physics , Soumik Mukhopadhyay , theoretical EM , theoretical physics , waveguide theory
โ Introduction to Advanced Electrodynamics
Authors: Kaushik Bhattacharya, Soumik Mukhopadhyay
Quality: Black White Pakistan Print
๐ Introduction
This book provides a deeper exploration into the theories of electrodynamics, suitable for advanced undergraduate and postgraduate physics students. With mathematical rigor and physical insight, it builds a solid foundation for tackling modern challenges in electromagnetic theory.
๐ Key Points
-
Covers Maxwell's equations in complex scenarios and advanced mathematical treatment.
-
Includes relativistic formulation of electrodynamics and radiation theory.
-
Focus on waveguides, antennas, and plasma electrodynamics.
-
Detailed examples and problem sets for each topic.
-
Bridges the gap between classical and quantum electrodynamics.
โ Conclusion
A valuable resource for students aiming to master electrodynamics beyond the basics, this book prepares readers for research and specialized fields in modern physics.