Understanding mathematical concepts in physics : insights from geometrical and numerical approaches

By: Sanjeev DhurandharMaterial type: TextTextSeries: Lecture Notes in Physics ; Vol. 1030Publication details: Switzerland: Springer Nature, [c2024]Description: 351 pISBN: 9783031603938Subject(s): Mathematical physicsLOC classification: QC20 .D48Online resources: Google books partial view
Contents:
Chapter 1. Topology Chapter 2. Hilbert Spaces Chapter 3. Fourier Analysis Chapter 4. Complex Analysis: Hands On Chapter 5. Understanding Differential Equations Chapter 6. Solving Differential Equations Chapter 7. Differential Geometry and Tensors Chapter 8. The Rotation Group, Lorentz Group and Lie Groups Chapter 9. Probability and Random Variables Chapter 10. Probability Distributions in Physics Chapter 11. The Statistical Detection of Signals in Noisy Data
Summary: Modern mathematics has become an essential part of today’s physicist’s arsenal and this book covers several relevant such topics. The primary aim of this book is to present key mathematical concepts in an intuitive way with the help of geometrical and numerical methods - understanding is the key. Not all differential equations can be solved with standard techniques. Examples illustrate how geometrical insights and numerical methods are useful in understanding differential equations in general but are indispensable when extracting relevant information from equations that do not yield to standard methods. --- Summary provided by publisher
List(s) this item appears in: New Arrivals
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Chapter 1. Topology
Chapter 2. Hilbert Spaces
Chapter 3. Fourier Analysis
Chapter 4. Complex Analysis: Hands On
Chapter 5. Understanding Differential Equations
Chapter 6. Solving Differential Equations
Chapter 7. Differential Geometry and Tensors
Chapter 8. The Rotation Group, Lorentz Group and Lie Groups
Chapter 9. Probability and Random Variables
Chapter 10. Probability Distributions in Physics
Chapter 11. The Statistical Detection of Signals in Noisy Data

Modern mathematics has become an essential part of today’s physicist’s arsenal and this book covers several relevant such topics. The primary aim of this book is to present key mathematical concepts in an intuitive way with the help of geometrical and numerical methods - understanding is the key. Not all differential equations can be solved with standard techniques. Examples illustrate how geometrical insights and numerical methods are useful in understanding differential equations in general but are indispensable when extracting relevant information from equations that do not yield to standard methods. --- Summary provided by publisher

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