Block Method for Solving the Laplace Equation and for Constructing Conformal Mappings

Name: Block Method for Solving the Laplace Equation and for Constructing Conformal Mappings
Brand: Taylor & Francis Ltd
SKU: 9781138104969
Price: 235.6 EUR
Availability: InStock

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€235.60

Product variants

A01=Evgenii A. Volkov

Age Group_Uncategorized

Angular Step

Approximate Solution

arbitrary polygon

Author_Evgenii A. Volkov

automatic-update

Basic Blocks

Block Method

Boundary T1

Carrier Function

Category1=Non-Fiction

Category=PBKJ

Category=PBW

Cauchy Riemann Conditions

Conformal Invariant

Conformal Mapping

Conjugate Harmonic Function

COP=United Kingdom

Curvilinear Part

Delivery_Pre-order

Dirichlet’s Problem

Domain Ii

eq_isMigrated=2

Extended Block

Imaginary Axis

Language_English

Laplace equation

Line Segment AC

Linear Algebraic Equations

Mathamatics

Neumann’s Problem

numerical-analytical method

PA=Temporarily unavailable

Point Z0

Points Pk

Polygonal Line

Price_€100 and above

PS=Active

softlaunch

Subdomain Ii0

Termwise Differentiation

Uniquely Solvable

variational-difference methods

Product details

ISBN 9781138104969
Weight: 600g
Dimensions: 156 x 234mm
Publication Date: 13 Jul 2017
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Hardback
Language: English

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This book presents a new, efficient numerical-analytical method for solving the Laplace equation on an arbitrary polygon. This method, called the approximate block method, overcomes indicated difficulties and has qualitatively more rapid convergence than well-known difference and variational-difference methods. The block method also solves the complicated problem of approximate conformal mapping of multiply-connected polygons onto canonical domains with no preliminary information required. The high-precision results of calculations carried out on the computer are presented in an abundance of tables substantiating the exponential convergence of the block method and its strong stability concerning the rounding-off of errors.

Evgenii A. Volkov is a professor at the Steklov Mathematical Institute in Moscow, Russia.