Numerical Methods for Engineers (2nd Ed.)
Auteurs : Griffiths D. Vaughan, Smith I.M.
Although pseudocodes, Mathematica®, and MATLAB® illustrate how algorithms work, designers of engineering systems write the vast majority of large computer programs in the Fortran language. Using Fortran 95 to solve a range of practical engineering problems, Numerical Methods for Engineers, Second Edition provides an introduction to numerical methods, incorporating theory with concrete computing exercises and programmed examples of the techniques presented.
Covering a wide range of numerical applications that have immediate relevancy for engineers, the book describes forty-nine programs in Fortran 95. Many of the programs discussed use a sub-program library called nm_lib that holds twenty-three subroutines and functions. In addition, there is a precision module that controls the precision of calculations.
Well-respected in their field, the authors discuss a variety of numerical topics related to engineering. Some of the chapter features include?
Describing concise programs that are constructed using sub-programs wherever possible, this book presents many different contexts of numerical analysis, forming an excellent introduction to more comprehensive subroutine libraries such as the numerical algorithm group (NAG).
Date de parution : 09-2019
15.6x23.4 cm
Date de parution : 06-2006
Ouvrage de 480 p.
15.6x23.4 cm
Thèmes de Numerical Methods for Engineers :
Mots-clés :
Stabilized Bi-Conjugate Gradients; Tol Convergence Tolerance; End Program; Scalar Integers; Gauss Legendre Rule; Newton Cotes Rules; Hand Side Vector; False Position Method; Fourth Order Runge Kutta Method; Vector Iteration; 4TH ORDER RUNGE KUTTA METHOD; LU Factorization; Order Runge Kutta Method; Solution Domain; Coefficient Matrix; Linear Simultaneous Equations; Real Number; Order Linear ODEs; Euler Method; Preconditioned Conjugate Gradients; Predictor Corrector Methods; Newton Raphson Method; Iterative Substitution; Φ1 Φ2 Φ3 Φ4 Φ5; End Function
