Igor V. Kolokolov, Evgeny A. Kuznetsov, Alexander I. Milstein, Evgeny V. Podivilov, Alexander I. Chernykh, David A. Shapiro, Elena G. Shapiro
Mathematical Methods of Physics (eBook, ePUB)
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Igor V. Kolokolov, Evgeny A. Kuznetsov, Alexander I. Milstein, Evgeny V. Podivilov, Alexander I. Chernykh, David A. Shapiro, Elena G. Shapiro
Mathematical Methods of Physics (eBook, ePUB)
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This book is an English translation of a classic collection of problems in mathematical methods of physics, which has been published multiple times in Russian and once in Spanish.
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This book is an English translation of a classic collection of problems in mathematical methods of physics, which has been published multiple times in Russian and once in Spanish.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Erscheinungstermin: 11. Oktober 2024
- Englisch
- ISBN-13: 9781040117798
- Artikelnr.: 72284740
- Verlag: Taylor & Francis
- Erscheinungstermin: 11. Oktober 2024
- Englisch
- ISBN-13: 9781040117798
- Artikelnr.: 72284740
Igor V. Kolokolov is a Russian physicist known for his work on magnetism, soft matter physics and statistical hydrodynamics. He is professor at the Physical Department at Higher School of Economics, Moscow, and Director of Landau Institute of Theoretical Physics, Chernogolovka, Russia.
Evgeny A. Kuznetsov is a Russian physicist known for his work on nonlinear physics, soliton stability theory, and Hamiltonian formalism for nonlinear waves. He is a member of the Russian Academy of Sciences (RAS), professor at the Moscow Institute of Physics and Technology, and a principal researcher at the Tamm Theoretical Physics Department of the Lebedev Physics Institute of the RAS.
Alexander I. Milstein is a Russian physicist, specialist in theoretical elementary particle physics, nuclear and atomic physics, head of the Theoretical Department at Budker Institute of Nuclear Physics, and professor at Novosibirsk State University (NSU).
Evgeny V. Podivilov is a Russian physicist known for his work on nonlinear optics and nonlinear interactions of waves in fibers. He is a professor at NSU and a principal researcher at the Institute of Automation and Electrometry of the RAS.
Alexander I. Chernykh holds a PhD in physics and mathematics and is engaged in numerical modeling. He has taught various subjects, including methods of mathematical physics, analytical mechanics, statistical physics, and general theory of relativity.
David A. Shapiro is a Russian physicist. He is professor at NSU and heads the Photonics Laboratory at the Institute of Automation and Electrometry of the RAS. His current research interests include fiber optics, nanophotonics, and plasma physics.
Elena G. Shapiro holds a PhD in physics and mathematics. In 1985, she became a member of the Institute of Automation and Electrometry of the RAS. She had been teaching undergraduate students at the Physics Department of NSU since 1988.
Evgeny A. Kuznetsov is a Russian physicist known for his work on nonlinear physics, soliton stability theory, and Hamiltonian formalism for nonlinear waves. He is a member of the Russian Academy of Sciences (RAS), professor at the Moscow Institute of Physics and Technology, and a principal researcher at the Tamm Theoretical Physics Department of the Lebedev Physics Institute of the RAS.
Alexander I. Milstein is a Russian physicist, specialist in theoretical elementary particle physics, nuclear and atomic physics, head of the Theoretical Department at Budker Institute of Nuclear Physics, and professor at Novosibirsk State University (NSU).
Evgeny V. Podivilov is a Russian physicist known for his work on nonlinear optics and nonlinear interactions of waves in fibers. He is a professor at NSU and a principal researcher at the Institute of Automation and Electrometry of the RAS.
Alexander I. Chernykh holds a PhD in physics and mathematics and is engaged in numerical modeling. He has taught various subjects, including methods of mathematical physics, analytical mechanics, statistical physics, and general theory of relativity.
David A. Shapiro is a Russian physicist. He is professor at NSU and heads the Photonics Laboratory at the Institute of Automation and Electrometry of the RAS. His current research interests include fiber optics, nanophotonics, and plasma physics.
Elena G. Shapiro holds a PhD in physics and mathematics. In 1985, she became a member of the Institute of Automation and Electrometry of the RAS. She had been teaching undergraduate students at the Physics Department of NSU since 1988.
1 Linear Operators
1.1 Finite Dimensional Space
1.2 Functionals and Generalized Functions
1.3 Hilbert Space and Completeness
1.4 Self-Adjoint Operators
1.5 Ket- and Bra- Vectors
2 Method of Characteristics
2.1 Linear First-Order PDE
2.2 Quasilinear Equation
2.3 System of Equations
3 Second-Order Linear Equations
3.1 Canonical Form
3.2 Curvilinear Coordinates
3.3 Separation of Variables
3.4 Fourier Method
4 Self-Similarity and Nonlinear Equations
4.1 Symmetry of Equations
4.2 Nonlinear Equations
5 Special Functions
5.1 Singular Points
5.2 Hypergeometric Functions
5.3 Orthogonal Polynomials
6 Asymptotic Methods
6.1 Asymptotic Power Series
6.2 A Laplace Integral
6.3 Method of Stationary Phase
6.4 Method of Steepest Descents
6.5 The Averaging Method
7 Green's Functions Method
7.1 Green's Functions
7.2 Continuous Spectrum
7.3 Resolvent
8 Integral Equations
8.1 Fredholm Equations
8.2 Degenerate Kernel
8.3 Symmetric Kernel
8.4 Inverse Problem for Schrödinger Operator
9 Groups and Representations
9.1 Groups
9.2 Representations
10 Continuous Groups
10.1 Lie Groups and Algebras
10.2 Representations of the Rotation Group
11 Group Theory in Physics
11.1 Molecular Oscillations
11.2 Level Splitting
11.3 Selection Rules
11.4 Invariant Tensors
1.1 Finite Dimensional Space
1.2 Functionals and Generalized Functions
1.3 Hilbert Space and Completeness
1.4 Self-Adjoint Operators
1.5 Ket- and Bra- Vectors
2 Method of Characteristics
2.1 Linear First-Order PDE
2.2 Quasilinear Equation
2.3 System of Equations
3 Second-Order Linear Equations
3.1 Canonical Form
3.2 Curvilinear Coordinates
3.3 Separation of Variables
3.4 Fourier Method
4 Self-Similarity and Nonlinear Equations
4.1 Symmetry of Equations
4.2 Nonlinear Equations
5 Special Functions
5.1 Singular Points
5.2 Hypergeometric Functions
5.3 Orthogonal Polynomials
6 Asymptotic Methods
6.1 Asymptotic Power Series
6.2 A Laplace Integral
6.3 Method of Stationary Phase
6.4 Method of Steepest Descents
6.5 The Averaging Method
7 Green's Functions Method
7.1 Green's Functions
7.2 Continuous Spectrum
7.3 Resolvent
8 Integral Equations
8.1 Fredholm Equations
8.2 Degenerate Kernel
8.3 Symmetric Kernel
8.4 Inverse Problem for Schrödinger Operator
9 Groups and Representations
9.1 Groups
9.2 Representations
10 Continuous Groups
10.1 Lie Groups and Algebras
10.2 Representations of the Rotation Group
11 Group Theory in Physics
11.1 Molecular Oscillations
11.2 Level Splitting
11.3 Selection Rules
11.4 Invariant Tensors
1 Linear Operators
1.1 Finite Dimensional Space
1.2 Functionals and Generalized Functions
1.3 Hilbert Space and Completeness
1.4 Self-Adjoint Operators
1.5 Ket- and Bra- Vectors
2 Method of Characteristics
2.1 Linear First-Order PDE
2.2 Quasilinear Equation
2.3 System of Equations
3 Second-Order Linear Equations
3.1 Canonical Form
3.2 Curvilinear Coordinates
3.3 Separation of Variables
3.4 Fourier Method
4 Self-Similarity and Nonlinear Equations
4.1 Symmetry of Equations
4.2 Nonlinear Equations
5 Special Functions
5.1 Singular Points
5.2 Hypergeometric Functions
5.3 Orthogonal Polynomials
6 Asymptotic Methods
6.1 Asymptotic Power Series
6.2 A Laplace Integral
6.3 Method of Stationary Phase
6.4 Method of Steepest Descents
6.5 The Averaging Method
7 Green's Functions Method
7.1 Green's Functions
7.2 Continuous Spectrum
7.3 Resolvent
8 Integral Equations
8.1 Fredholm Equations
8.2 Degenerate Kernel
8.3 Symmetric Kernel
8.4 Inverse Problem for Schrödinger Operator
9 Groups and Representations
9.1 Groups
9.2 Representations
10 Continuous Groups
10.1 Lie Groups and Algebras
10.2 Representations of the Rotation Group
11 Group Theory in Physics
11.1 Molecular Oscillations
11.2 Level Splitting
11.3 Selection Rules
11.4 Invariant Tensors
1.1 Finite Dimensional Space
1.2 Functionals and Generalized Functions
1.3 Hilbert Space and Completeness
1.4 Self-Adjoint Operators
1.5 Ket- and Bra- Vectors
2 Method of Characteristics
2.1 Linear First-Order PDE
2.2 Quasilinear Equation
2.3 System of Equations
3 Second-Order Linear Equations
3.1 Canonical Form
3.2 Curvilinear Coordinates
3.3 Separation of Variables
3.4 Fourier Method
4 Self-Similarity and Nonlinear Equations
4.1 Symmetry of Equations
4.2 Nonlinear Equations
5 Special Functions
5.1 Singular Points
5.2 Hypergeometric Functions
5.3 Orthogonal Polynomials
6 Asymptotic Methods
6.1 Asymptotic Power Series
6.2 A Laplace Integral
6.3 Method of Stationary Phase
6.4 Method of Steepest Descents
6.5 The Averaging Method
7 Green's Functions Method
7.1 Green's Functions
7.2 Continuous Spectrum
7.3 Resolvent
8 Integral Equations
8.1 Fredholm Equations
8.2 Degenerate Kernel
8.3 Symmetric Kernel
8.4 Inverse Problem for Schrödinger Operator
9 Groups and Representations
9.1 Groups
9.2 Representations
10 Continuous Groups
10.1 Lie Groups and Algebras
10.2 Representations of the Rotation Group
11 Group Theory in Physics
11.1 Molecular Oscillations
11.2 Level Splitting
11.3 Selection Rules
11.4 Invariant Tensors