Mathematical physics

A lively and erudite introduction for readers with a background in undergraduate mathematics but no previous knowledge of physics.

This introduction to dimensional analysis covers the methods, history and formalisation of the field, and provides physics and engineering applications.

This introduction to dimensional analysis covers the methods, history and formalisation of the field, and provides physics and engineering applications.

This book introduces the major concepts of probability and statistics, along with the necessary computational tools, for undergraduates and graduate students.

This book introduces the major concepts of probability and statistics, along with the necessary computational tools, for undergraduates and graduate students.

An elementary introduction to hadronic properties at finite temperature and density that develops real-time methods of thermal field theory.

An elementary introduction to hadronic properties at finite temperature and density that develops real-time methods of thermal field theory.

A comprehensive introduction to the methods of, and physics describable by, classical field theory.

A comprehensive introduction to the methods of, and physics describable by, classical field theory.

Translation of an influential book on exactly solvable models of many-body physics for graduate students and researchers in physics.

Translation of an influential book on exactly solvable models of many-body physics for graduate students and researchers in physics.

Comprehensive treatment of the essentials of modern differential geometry and topology for graduate students in mathematics and the physical sciences.

Comprehensive treatment of the essentials of modern differential geometry and topology for graduate students in mathematics and the physical sciences.

This Student Solution Manual provides complete solutions to all the odd-numbered problems in Foundation Mathematics for the Physical Sciences.

Step-by-step solutions to the odd-numbered problems in Essential Mathematical Methods for the Physical Sciences.

An applications-oriented approach gives graduate students and researchers in the physical sciences the tools needed to analyze any physical system.

An applications-oriented approach gives graduate students and researchers in the physical sciences the tools needed to analyze any physical system.

This comprehensive overview of lattice sums is long overdue for a topic that is important in diverse areas of science.

This volume examines the impact of the ''Monstrous Moonshine'' paper on mathematics and theoretical physics.

An introduction to recent developments in several active topics at the interface between algebra, geometry, topology and quantum field theory.

An elegant book that is sure to become the standard introduction to synthetic differential geometry.

Introduces graduate students and researchers to mathematical physics, providing a mathematical discourse on the relation between theoretical and experimental physics.

Reviews developments in applications of inhomogeneous models to cosmology, for graduate students and academic researchers in astrophysics.

Description of research on the subject for researchers, and for advanced undergraduate and graduate courses in mathematical physics.

This book explores concepts within general relativity in the context of the particular space-times in which they arise.

Suitable for graduate students, this book develops quantum field theory in curved spacetime in a pedagogical style.

A concise and accessible account of the dynamical properties of one-dimensional quantum systems, for graduate students and new researchers.

A graduate textbook that provides a unified treatment of machine learning methods and their applications in the environmental sciences.

Reflecting on the explosion of research activities in this field over the last decade, this edition has been substantially expanded.

The first coherent presentation of this rapidly growing field, covering methods and applications for graduate students and researchers.

A rigorous construction and uniqueness proof for the Monster group, detailing its relation to Majorana involutions.

A complete overview of this field from the frontiers of theoretical physics research for graduate students and researchers.

Introduces many-body theory of modern quantum statistical mechanics to graduate students in physics, chemistry, engineering and biology.

The textbook, first published in 2007, provides a simple, practical introduction to supersymmetry for graduates and researchers.

This graduate text provides a concise and self-contained introduction to Kähler geometry.

This 2004 book presents the loop and spinfoam approach to quantum gravity, for graduates and researchers.

A broad scope textbook for senior undergraduates starting computational physics courses, first published in 2006.

State-of-the-art coverage of modern computational methods for the analysis and design of beams Analysis and Design of Elastic Beams presents computer models and applications related to thin-walled beams such as those used in mechanical and aerospace designs, where thin, lightweight structures with high strength are needed.

Space Groups and Their Representations focuses on the discussions on space groups and their corresponding numerical and analytical representations.

Lectures on the Many-Body Problem is a compilation of papers delivered at the Fifth International School of Physics, held at Ravello, Italy in April 1963.

Methods in Computational Physics, Volume 11: Seismology: Surface Waves and Earth Oscillations is a five-chapter text that deals with the computational analysis of surface waves and the eigenvibrations of the Earth.

Methods of Modern Mathematical Physics, Volume I: Functional Analysis discusses the fundamental principles of functional analysis in modern mathematical physics.

Methods in Computational Physics, Volume 17: General Circulation Models of the Atmosphere is a five-chapter text that covers the fundamentals and application of general circulation models to solving practical problems related to the atmosphere.

Methods in Computational Physics, Volume 15: Vibrational Properties of Solids explores the application of computational methods to delineate microscopic vibrational behavior.

Methods in Computational Physics, Volume 16: Controlled Fusion considers the full variety of computer models needed for the simulation of realistic fusion devices.

Nonlinear Differential Equations and Nonlinear Mechanics provides information pertinent to nonlinear differential equations, nonlinear mechanics, control theory, and other related topics.

Mathematical Methods in Nuclear Reactor Dynamics covers the practical and theoretical aspects of point-reactor kinetics and linear and nonlinear reactor dynamics.

Mathematical Techniques and Physical Applications provides a wide range of basic mathematical concepts and methods, which are relevant to physical theory.

Group Theoretical Methods in Physics: Proceedings of the Fifth International Colloquium provides information pertinent to the fundamental aspects of group theoretical methods in physics.

Thermodynamics and Statistical Mechanics deals with the method of thermodynamic potentials, the four Gibbsian potentials, and Boltzmann's statistics.