English | 2024 | Original PDF | 23 MB | 398 Pages
Francis E. Mensah, B0D98C19JV, 1032762225, 1040089941, 9781032762227, 9781040089941, 9781003478812, 9781040089910, 978-1032762227, 978-1040089941, 978-1003478812, 978-1040089910
Elements of Mathematical Methods for Physics
provides students with an approachable and innovative introduction to
key concepts of mathematical physics, accompanied by clear and concise
explanations, relevant real-world examples and problems that help them
to master the fundamentals of mathematical physics. The topics are
presented at a basic level, for students lacking a prior mathematical
background.
This book is designed to be covered in
two semesters, presenting 18 chapters on topics varying from
differential equations, matrix algebra and tensor analysis to Fourier
transform, including special functions and dynamical systems.
Upper-level
undergraduate and graduate students of physics and engineering as well
as professionals will gain a better grip of the basics and a deeper
insight into and appreciation for mathematical methods for physics.
Key Features:
• Reviews and presents the basic math skills needed at the undergraduate level.
• Chapters accompanied by examples and end-of-chapter problems to enhance understanding.
• Introduces dynamical systems and includes a chapter on Hilbert Space
