Department of Mathematics, Faculty of Physics, Lomonosov MSU

Abstract differential equations with applications in mathematical physics
Asymptotic methods in nonlinear problems of mathematical physics
Asymptotic methods in the theory of differential equations with rapidly oscillating solutions
Asymptotic averaging method for problems of mathematical physics
Introduction to perturbation theory
Gas dynamics and cosmic magnetic fields
Group analysis of differential equations In the course we consider integrations of ODEs that admit sufficiently large Lie algebras of point transformations, as well as contact transformations that generalize point transformations. We consider the connection between the generalized symmetries of the Euler-Lagrange equations and the conservation laws.
Supplementary chapters of mathematical physics (nonlinear functional analysis)
Linear and nonlinear functional analysis
Mathematical problems of diffraction theory Mathematical models of wave processes in non-uniform environments, their full mathematical justification. Main analytical and numerical algorithms of creation of models and their research
Mathematical methods in ecology
Mathematical modeling of plasma – kinetic theory
Mathematical modeling of plasma – numerical experiment
Differential inequality method in nonlinear problems
Finite element method in problems of mathematical physics theory and practice of application of the finite element method
Nonlinear elliptic and parabolic equations of mathematical physics
Fundamentals of algebra and differential geometry
Mathematical models of hydrodynamics and gas dynamics
Category Theory Basics
Parabolic equations Parabolic equations
Parallel Computations
Programming of scientific applications in the language C++
Methods of finite differences in mathematical physics
Modern methods of modeling in magnetohydrodynamics
Special functions of mathematical physics This course is a restored course, created by prof. A.F. Nikiforov. A unified approach to constructing particular solutions to generalized hypergeometric equation is proposed. The generalized hypergeometric equation is an often used equation of mathematical and theoretical physics.
Special practical work. Differential schemes
Stochastic differential equations
Tensor calculus
Theoretical Basics of Big Data Analytics and Real Time Computation Algorithms The course will briefly review specific challenges of Big Data Analytics, such as problems of extracting, unifying, updating, and merging information and specific needs in processing data, which should be highly parallel and distributed. With these specific features in mind we will then study more closely a number of mathematical tools for Big Data analytics, such as regression analysis, linear estimation, calibration problems, real time processing of incoming (potentially infinite) data
Catastrophe theory and its applications in physics
Theory of blow-ups of nonlinear equations
Functional analysis
Numerical methods in mathematical physics Application of numerical methods for various applications
Extremal problems
Elliptic equations

Introduction to the tensor analysis The course is devoted to the presentation of the basics of differential geometry and is expository. It is designed for students 2 - 5 courses
Mathematical problems of diffraction theory 1. Supplementary chapters Mathematical models of wave processes in non-uniform environments, their full mathematical justification. Main analytical and numerical algorithms of creation of models and their research
Mathematical modeling – the third way of knowledge
Symbolical, numerical and graphic methods of computer mathematics
Functional analysis. Supplementary chapters
Elements of measure theory and Lebesgue integral

All courses