RE: Re: New Mathematica book with new codes
- To: mathgroup at smc.vnet.net
- Subject: [mg40883] RE: [mg40871] Re: New Mathematica book with new codes
- From: "Ingolf Dahl" <ingolf.dahl at telia.com>
- Date: Wed, 23 Apr 2003 01:16:00 -0400 (EDT)
- Sender: owner-wri-mathgroup at wolfram.com
Janusz, Try this link http://www.crcpress.com/e_products/downloads/download.asp?cat_no=C4029, Ingolf Dahl >-----Original Message----- >From: Janusz Kawczak [mailto:jkawczak at math.uncc.edu] To: mathgroup at smc.vnet.net >Sent: Tuesday, April 22, 2003 12:49 >To: mathgroup at smc.vnet.net >Subject: [mg40883] [mg40871] Re: New Mathematica book with new codes > > >When will the codes be posted at the mentioned site? >Janusz. > >Ferdinand wrote: > >> Dear mathgroup, >> With best Easter wishes I would like to announce: >> Appearing: >> Mathematical Methods of Physics and Engineering with Mathematica >> Ferdinand F . Cap, CRC-Press/Chapman and Hall, May 2003, >> ISBN 1584884029, 53 Codes to be downloaded from ww.crcpress.com, >> see the list below ! >> >> 1 Introduction >> 1.1 What is a boundary problem? >> 1.2 Classification of partial differential equations >> 1.3 Types of boundary conditions and the collocation method >> 1.4 Differential equations as models for nature >> >> 2 Boundary problems of ordinary differential equations >> 2.1 Linear differential equations >> 2.2 Solving linear differential equations >> 2.3 Differential equations of physics and engineering >> 2.4 Boundary value problems and eigenvalues >> 2.5 Boundary value problem as initial value problem >> 2.6 Nonlinear ordinary differential equations >> 2.7 Solutions of nonlinear differential equations >> >> 3 Partial differential equations >> 3.1 Coordinate systems and separability and coordinate systems >> 3.2 Other methods to reduce partial to ordinary differential equations >> 3.3 The method of characteristics >> 3.4 Nonlinear partial differential equations >> >> 4 Boundary problems with one closed boundary defined by coordinate lines >> >> 4.1 Laplace and Poisson equation >> 4.2 Conformal mapping in two and three dimensions >> 4.3 D?Alembert wave equation and string vibrations >> 4.4 Helmholtz equation and membrane vibrations >> 4.5 Rods and the plate equation >> 4.6 Approximation methods >> 4.7 Variational calculus >> 4.8 Collocation methods >> >> 5 Boundary problems with two closed boundaries >> 5.1 Insseparable problems >> 5.2 Holes in the domain.Two boundaries belonging to different >> coordinate systems >> 5.3 Corners in the boundary >> >> 6 Nonlinear boundary problems >> 6.1 Some definitions and examples >> 6.2 Moving and free boundaries >> 6.3 Waves of large amplitudes. Solitons >> 6.4 Rupture of an embankment-type dam >> 6.5 Gas flow in a combustion engine >> >> List of codes (1 - 53) >> see: www.crcpress.com/download >> (F.Cap, Mathematical Methods in Physics and Engineering with >> Mathematica, ccrcpress and Chapman and Hall, May 2003, ISBN 1584884029 >> c1 Equation of motion of a parachutist >> c2 Differentiate and integrate >> c3 The differential equation describing the spread of an epidemic >> disease >> c4 The Wronskian of exp(x), exp(2x) >> c5 The most general linear differential equation of second order >> c6 Inhomogeneous equation of oscillations >> c7 An initial value problem >> c8 Homogeneous boundary value problem >> c9 Inhomogeneous boundary value problem >> c10 Pick out values of a numerical solution of a problem with varying >> boundary values >> c11 Preparing the shooting method for inhomogeneous boundary value >> problems >> c12 Series expansion of a Lie-series solution >> c13 Learn a loop for the shooting method >> c14 Limit cycle of the Van der Pol equation >> c15 High voltage electrostatic parametric generator US patent >> c16 Phase portrait of the Duffing equation >> c17 Phase portrait Mathieu equation >> c18 Phase portrait of the pendulum equation >> c19 Jacobian matrix of spherical coordinates >> c20 Vector analysis: curl in spherical coordinates >> c21 Separation setup for the Laplacian >> c22 Laplace transformation >> c23 Characteristics of one-dimensional flow (3.3.27), see page 119 of >> the book >> c24 Solution of the heat conduction equation using a similarity >> transformation >> c25 Harmonic polynomials as solution of the Laplacian >> c26 Biharmonic polynomials solve the static homogeneous plate equation >> c27 Generalized Bessel and Kummer equations >> c28 Whittaker, Gegenbauer and Weber equation >> c29 Legendre equation with Rodriguez formula >> c30 Laguerre equation with Rodriguez formula >> c31 Hermite equation with Rodriguez formula >> c32 Vector field - cover of the book >> c33 Conformal mapping >> c34 2D flow around a cylinder >> c35 Solution of the damped Helmholtz equation >> c36 Free bending vibrations of a rod >> c37 Two boundaries for the Laplace equation >> c38 Inhomogeneous boundary problem for the Laplace equation >> c39 Nontrivial homogeneous boundary problem of the Laplace equation >> c40 COLLOC, a FORTRAN PROGRAM to calculate the eigenvalues of a >> circular membrane in CARTESIAN COORDINATES >> c41 Eigenvalue problem for a circular membrane. >> Calculation in cartesian coordinates >> c42 Clamped Cassini membrane in cartesian coordinates >> c43 Circular membrane with varying surface mass density. >> Includes four-fold loop >> c44 Circular plate with two homogeneous boundary conditions >> c45 Laplace equation in polar coordinates with a singularity >> c46 Laplace equation with two different boundaries, inner inhomogeneous >> on a square and outer homogeneous on circle >> c47 Membrane with an homogeneous boundary condition on an inner circle >> >> and an inhomogeneous outer boundary condition >> c48 Corner in a boundary curve of a membrane >> c49 Steepening up of a large-amplitude wave >> c50 Envelope soliton >> c51 Laplace equation with outer inhomogeneous boundary values on square >> >> and inner homogeneous boundary values on circle >> c52 Gaussian elimination >> c53 The shooting method >