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Free Book Spot is a free e-books links library where you can find and download free books in almost any category. For adding new free ebook you should enter some info about the book and link(s) to it. If you have no link - never mind - may be other members will help you. Civil Engineering: Computer Science: Computers (Other) Control. New Biology For Engineers And Computer Scientists Ebook Store. 5/31/2017 0 Comments. New Biology for Engineers and Computer Scientists. By Aydin Tozeren, Stephen W. ISBN-10: 0-13-066463-4 New Biology for Engineers and Computer Scientists. New Biology for Engineers and Computer Scientists by Aydin Tozeren, Stephen W. Byers Taking a system.
Prefaceiii
Chapter 1Introduction1
1.1 Background 1
1.2 Representation of Numbers on a Computer 4
1.3 Errors in Numerical Solutions 10
1.4 Computers and Programming 15
1.5 Problems 18
Chapter 2Mathematical Background23
2.1 Background 23
2.2 Concepts from Pre-Calculus and Calculus 24
2.3 Vectors 28
2.4 Matrices and Linear Algebra 32
2.5 Ordinary Differential Equations (ODE) 41
2.6 Functions of Two or More Independent Variables 44
2.7 Taylor Series Expansion of Functions 47
2.8 Inner Product and Orthogonality 50
2.9 Problems 51
Chapter 3Solving Nonlinear Equations57
3.1 Background 57
3.2 Estimation of Errors in Numerical Solutions 59
3.3 Bisection Method 61
3.4 Regula Falsi Method 64
3.5 Newton’s Method 66
3.6 Secant Method 71
3.7 Fixed-Point Iteration Method 74
3.8 Use of MATLAB Built-In Functions for Solving Nonlinear Equations 77
3.9 Equations with Multiple Solutions 79
3.10 Systems of Nonlinear Equations 81
3.11 Problems 88
Chapter 4Solving a System of Linear Equations99
4.1 Background 99
4.2 Gauss Elimination Method 102
4.3 Gauss Elimination with Pivoting 112
4.4 Gauss–Jordan Elimination Method 115
4.5 LU Decomposition Method 118
4.6 Inverse of a Matrix 128
4.7 Iterative Methods 132
4.8 Use of MATLAB Built-In Functions for Solving a System of Linear Equations 136
4.9 Tridiagonal Systems of Equations 141
4.10 Error, Residual, Norms, and Condition Number 146
4.11 Ill-Conditioned Systems 151
4.12 Problems 155
Chapter 5Eigenvalues and Eigenvectors165
5.1 Background 165
5.2 The Characteristic Equation 167
5.3 The Basic Power Method 167
5.4 The Inverse Power Method 172
5.5 The Shifted Power Method 173
5.6 The QR Factorization and Iteration Method 174
5.7 Use of MATLAB Built-In Functions for Determining Eigenvalues and
Eigenvectors 184
5.8 Problems 186
Chapter 6Curve Fitting and Interpolation193
6.1 Background 193
6.2 Curve Fitting with a Linear Equation 195
6.3 Curve Fitting with Nonlinear Equation by Writing the Equation in a Linear Form 201
6.4 Curve Fitting with Quadratic and Higher-Order Polynomials 205
6.5 Interpolation Using a Single Polynomial 210
6.6 Piecewise (Spline) Interpolation 223
6.7 Use of MATLAB Built-In Functions for Curve Fitting and Interpolation 236
6.8 Curve Fitting with a Linear Combination of Nonlinear Functions 238
6.9 Problems 241
Chapter 7Fourier Methods251
7.1 Background 251
7.2 Approximating a Square Wave by a Series of sine functions 254
7.3 General (Infinite) Fourier Series 257
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7.4 Complex Form of the Fourier Series 262
7.5 The Discrete Fourier Series and Discrete Fourier transform 263
7.6 Complex Discrete Fourier Transform 269
7.7 Power (Energy) Spectrum 272
7.8 Aliasing and Nyquist Frequency 273
7.9 Alternative Forms of the Discrete Fourier Transform 278
7.10 Use of MATLAB Built-In Functions for Calculating Discrete Fourier Transform 279
7.11 Leakage and Windowing 284
7.12 Bandwidth and Filters 286
7.13 The Fast Fourier Transform (FFT) 288
7.14 Problems 298
Chapter 8Numerical Differentiation303
8.1 Background 303
8.2 Finite Difference Approximation of the Derivative 305
8.3 Finite Difference Formulas Using Taylor Series Expansion 310
8.4 Summary of Finite Difference Formulas for Numerical Differentiation 317
8.5 Differentiation Formulas Using Lagrange Polynomials 319
8.6 Differentiation Using Curve Fitting 320
8.7 Use of MATLAB Built-In Functions for Numerical Differentiation 320
8.8 Richardson’s Extrapolation 322
8.9 Error in Numerical Differentiation 325
8.10 Numerical Partial Differentiation 327
8.11 Problems 330
Chapter 9Numerical Integration341
9.1 Background 341
9.1.1 Overview of Approaches in Numerical Integration342
9.2 Rectangle and Midpoint Methods 344
9.3 Trapezoidal Method 346
9.4 Simpson’s Methods 350
9.5 Gauss Quadrature 355
9.6 Evaluation of Multiple Integrals 360
9.7 Use of MATLAB Built-In Functions for Integration 362
9.8 Estimation of Error in Numerical Integration 364
9.9 Richardson’s Extrapolation 366
9.10 Romberg Integration 369
9.11 Improper Integrals 372
9.12 Problems 374
Chapter 10Ordinary Differential Equations: Initial-Value
Problems385
10.1 Background 385
10.2 Euler’s Methods 390
10.3 Modified Euler’s Method 401
10.4 Midpoint Method 404
10.5 Runge–Kutta Methods 405
10.6 Multistep Methods 417
10.6.1 Adams–Bashforth Method418
10.6.2 Adams–Moulton Method419
10.7 Predictor–Corrector Methods 420
10.8 System of First-Order Ordinary Differential Equations 422
10.9 Solving a Higher-Order Initial Value Problem 432
10.10 Use of MATLAB Built-In Functions for Solving Initial-Value Problems 437
10.11 Local Truncation Error in Second-Order Range–Kutta Method 447
10.12 Step Size for Desired Accuracy 448
10.13 Stability 452
10.14 Stiff Ordinary Differential Equations 454
10.15 Problems 457
Chapter 11Ordinary Differential Equations: Boundary-Value
Problems471
11.1 Background 471
11.2 The Shooting Method 474
11.3 Finite Difference Method 482
11.4 Use of MATLAB Built-In Functions for Solving Boundary Value Problems 492
11.5 Error and Stability in Numerical Solution of Boundary Value Problems 497
11.6 Problems 499
Appendix AIntroductory MATLAB509
A.1 Background 509
A.2 Starting with MATLAB 509
A.3 Arrays 514
A.4 Mathematical Operations with Arrays 519
A.5 Script Files 524
New Biology For Engineers And Computer Scientists Ebook Library System
A.6 Plotting 526
A.7 User-Defined Functions and Function Files 528
A.8 Anonymous Functions 530
A.9 Function functions 532
A.10 Subfunctions 535
A.11 Programming in MATLAB 537
A.11.1 Relational and Logical Operators537
A.11.2 Conditional Statements, if-else Structures538
A.11.3 Loops541
A.12 Problems 542
Appendix BMATLAB Programs547
New Biology For Engineers And Computer Scientists Ebook Library Download
Appendix CDerivation of the Real Discrete Fourier Transform551
New Biology For Engineers And Computer Scientists Ebook Library Free
C.1 Orthogonality of Sines and Cosines for Discrete Points 551
C.2 Determination of the Real DFT 553
Index555
Applied Maple for Engineers and Scientists (Artech House Computer Science Library) by Steven Adams, Christopher S. Tocci
English | August 1996 | ISBN: 0890068534 | 406 pages | PDF | 1.43 MB
In this comprehensive, easy-to-understand book, Chris Tocci and Steve Adams show how real-world engineering problems can be solved using MAPLE as the principal tool. The authors go well beyond providing a tutorial on MAPLE V, Release 4, as they show how to set up problems using MAPLE and demonstrate how engineers and scientists should think about problems when using this popular software. The book features practical examples and detailed explanations of the engineering processes and mathematical functions used in each case. Accompanying software includes exercises and a demonstration of MAPLE features and subroutines that can be used to solve the reader’s own engineering problems.
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