Topology, Calculus and Approximation [electronic resource] / by Vilmos Komornik.

By: Komornik, Vilmos [author.]Material type: TextTextSeries: Springer Undergraduate Mathematics SeriesPublisher: London : Springer London : Imprint: Springer, 2017Edition: 1st ed. 2017Description: XIV, 382 p. 64 illus., 1 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781447173168Subject(s): Differential equations | Numerical analysis | Approximation theory | Ordinary Differential Equations | Numerical Analysis | Approximations and ExpansionsDDC classification: 515.352 LOC classification: QA372Online resources: Click here to access online
Contents:
Part 1. Topology -- Chapter 1. Metric spaces -- Chapter 2. Topological spaces -- Chapter 3. Normed spaces -- Part 2. Differential calculus -- Chapter 4. The Derivative -- Chapter 5. Higher-order derivatives -- Chapter 6. Ordinary differential equations -- Chapter 7. Implicit functions and their applications -- Part 3. Approximation methods -- Chapter 8. Interpolation -- Chapter 9. Orthogonal polynomials -- Chapter 10. Numerical integration -- Chapter 11. Finding roots -- Chapter 12. Numerical solution of differential equations.
Summary: Presenting basic results of topology, calculus of several variables, and approximation theory which are rarely treated in a single volume, this textbook includes several beautiful, but almost forgotten, classical theorems of Descartes, Erdős, Fejér, Stieltjes, and Turán.  The exposition style of Topology, Calculus and Approximation follows the Hungarian mathematical tradition of Paul Erdős and others. In the first part, the classical results of Alexandroff, Cantor, Hausdorff, Helly, Peano, Radon, Tietze and Urysohn illustrate the theories of metric, topological and normed spaces. Following this, the general framework of normed spaces and Carathéodory's definition of the derivative are shown to simplify the statement and proof of various theorems in calculus and ordinary differential equations. The third and final part is devoted to interpolation, orthogonal polynomials, numerical integration, asymptotic expansions and the numerical solution of algebraic and differential equations. Students of both pure and applied mathematics, as well as physics and engineering should find this textbook useful. Only basic results of one-variable calculus and linear algebra are used, and simple yet pertinent examples and exercises illustrate the usefulness of most theorems. Many of these examples are new or difficult to locate in the literature, and so the original sources of most notions and results are given to help readers understand the development of the field.
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Holdings
Item type Current library Call number Status Date due Barcode Item holds
e-Books e-Books Central Library, Sikkim University
515.352 (Browse shelf(Opens below)) Not for loan E-3017
Total holds: 0

Part 1. Topology -- Chapter 1. Metric spaces -- Chapter 2. Topological spaces -- Chapter 3. Normed spaces -- Part 2. Differential calculus -- Chapter 4. The Derivative -- Chapter 5. Higher-order derivatives -- Chapter 6. Ordinary differential equations -- Chapter 7. Implicit functions and their applications -- Part 3. Approximation methods -- Chapter 8. Interpolation -- Chapter 9. Orthogonal polynomials -- Chapter 10. Numerical integration -- Chapter 11. Finding roots -- Chapter 12. Numerical solution of differential equations.

Presenting basic results of topology, calculus of several variables, and approximation theory which are rarely treated in a single volume, this textbook includes several beautiful, but almost forgotten, classical theorems of Descartes, Erdős, Fejér, Stieltjes, and Turán.  The exposition style of Topology, Calculus and Approximation follows the Hungarian mathematical tradition of Paul Erdős and others. In the first part, the classical results of Alexandroff, Cantor, Hausdorff, Helly, Peano, Radon, Tietze and Urysohn illustrate the theories of metric, topological and normed spaces. Following this, the general framework of normed spaces and Carathéodory's definition of the derivative are shown to simplify the statement and proof of various theorems in calculus and ordinary differential equations. The third and final part is devoted to interpolation, orthogonal polynomials, numerical integration, asymptotic expansions and the numerical solution of algebraic and differential equations. Students of both pure and applied mathematics, as well as physics and engineering should find this textbook useful. Only basic results of one-variable calculus and linear algebra are used, and simple yet pertinent examples and exercises illustrate the usefulness of most theorems. Many of these examples are new or difficult to locate in the literature, and so the original sources of most notions and results are given to help readers understand the development of the field.

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