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Mathematical Methods in Physics
The purpose of this note is to present standard and widely used mathematical methods in Physics, including functions of a complex variable, differential equations, linear algebra and special functions associated with eigenvalue problems of ordinary and partial differential operators.
Author(s): Eric D’Hoker
95 Pages 
Mathematical Physics by Indu Satija
This note covers Laws of nature and mathematical beauty, Gaussian Integrals and related functions, Basic gaussian integrals, Stirling formula error functions, Real numbers, Complex numbers, Scalars, Vectors, Tensors and spinor, Fourier transformation, Curvilinear coordinates, Partial differential equations, Solving partial differential equation by separation of variables, Solving laplace equation in spherical polar coordinates, Spherical harmonics and legendre functions, Bessel function, Spherical bessel function and matrices.
Author(s): Indu Satija
120 Pages
Mathematical Physics by Michael Aizenman
The PDF covers the following topics related to Mathematical Physics : Introduction to statistical mechanics, Canonical Ensembles for the Lattice Gas, Configurations and ensembles, The equivalence principle, Generalizing Ensemble Analysis to Harder Cases, Concavity and the Legendre transform, Basic concavity results, Concave properties of the Legendre transform, Basic setup for statistical mechanics, Gibbs equilibrium measure, Introduction to the Ising model, Entropy, energy, and free energy, Large deviation theory, Free energy, Basic Properties, Convexity of the pressure and its implications, Large deviation principle for van Hove sequences, 1-D Ising model, Transfer matrix method, Markov chains, 7 2-D Ising model, Ihara graph zeta function, Gibbs states in the infinite volume limit, Conditional expectation, Symmetry and symmetry breaking, Phase transitions, Random field models, Proof of symmetry-breaking of continuous symmetries, The spin-wave perspective, Infrared bound, Reflection positivity.
Author(s): Professor Michael Aizenman
76 Pages
Lecture notes for Mathematical Physics
This is a lecture note on Mathematical methods in physics. It covers the following topics: Group Theory and Lie Algebras,Path Integrals, Topology, Differential Geometry, Yang-Mills.
Author(s): Joseph A. Minahan
86 Pages
Mathematical Methods in Physics
The purpose of this note is to present standard and widely used mathematical methods in Physics, including functions of a complex variable, differential equations, linear algebra and special functions associated with eigenvalue problems of ordinary and partial differential operators.
Author(s): Eric D’Hoker
95 Pages
Mathematical Physics by Bergfinnur Durhuus and Jan Philip Solovej
The main focus of this note is on theoretical developments rather than elaborating on concrete physical systems, which the students are supposed to encounter in regular physics courses. Topics covered includes: Newtonian Mechanics, Lagrangian Mechanics, Hamiltonian Mechanics, Hilbert Spaces, Operators on Hilbert spaces and Quantum mechanics.
Author(s): Bergfinnur Durhuus and Jan Philip Solovej
177 Pages
An introduction to mathematical physics
This book is intended primarily as a class-book for mathematical students and as an introduction to the advanced treatises dealing with the subjects of the different chapters, but since the analysis is kept as simple as possible, It will be useful for chemists and others who wish to learn the principles of these subjects.
Author(s): Robert Alexander Houstoun
224 Pages
Mathematical Physics Lecture Notes
This note covers the following topics: Prologue, Free Fall and Harmonic Oscillators, ODEs and SHM, Linear Algebra, Harmonics - Fourier Series, Function Spaces, Complex Representations, Transform Techniques, Vector Analysis and EM Waves, Oscillations in Higher Dimensions.
Author(s): Dr. R. L. Herman
NA Pages
Ordinary Differential Equations and Dynamical Systems
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Differential Geometry and Physics
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Basic Bundle Theory and K Cohomology Invariants [PDF 356p]
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Lecture notes for Mathematical Methods
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Topology and Geometry for Physics
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Holomorphic Methods in Mathematical Physics [PDF 59p]
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Homological Methods in Equations of Mathematical Physics[PDF 150p]
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
An Introduction to Noncommutative Geometry [PDF 18p]
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA Pages
Differential Geometry (and Relativity)
Currently this section contains no detailed description for the page, will update this page soon.
Author(s): NA
NA PagesAdvertisement
