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Numerical Methods

Jeffrey R. Chasnov

Adapted for:

Numerical Methods for EngineersClick to view a promotional video The Hong Kong University of Science and Technology

Department of Mathematics

Clear Water Bay, Kowloon

Hong KongCopyright

c○2012 by Jeffrey Robert Chasnov This work is licensed under the Creative Commons Attribution 3.0 Hong Kong License. To view a copy of this license, visit http://creativecommons.org/licenses/by/3.0/hk/ or send a letter to Creative Commons, 171 Second Street, Suite 300, San Francisco, California, 94105, USA.

Preface

What follows were my lecture notes for Math 3311:Introduction to Numerical Meth- ods, taught at the Hong Kong University of Science and Technology. Math 3311, with two lecture hours per week, was primarily for non-mathematics majors and was required by several engineering departments. I also have some free online courses on Coursera. A lot of time and effort has gone into their production, and the video lectures for these courses are of high quality. You can click on the links below to explore these courses. If you want to learn differential equations, have a look at

Differential Equations for Engineers

If your interests are matrices and elementary linear algebra, try

Matrix Algebra for Engineers

If you want to learn vector calculus (also known as multivariable calculus, or calcu- lus three), you can sign up for

Vector Calculus for Engineers

And if your interest is numerical methods, have a go at

Numerical Methods for Engineers

JeffreyR. Chasnov

Hong Kong

February 2021

iii

Contents

1 IEEE Arithmetic

1

1.1 Definitions

1

1.2 Numbers with a decimal or binary point

1

1.3 Examples of binary numbers

1

1.4 Hex numbers

1

1.5 4-bit unsigned integers as hex numbers

1

1.6 IEEE single precision format:

2

1.7 Special numbers

2

1.8 Examples of computer numbers

3

1.9 Inexact numbers

3

1.9.1 Find smallest positive integer that is not exact in single precision

4

1.10 Machine epsilon

4

1.11 IEEE double precision format

5

1.12 Roundoff error example

5

2 Root Finding

7

2.1 Bisection Method

7

2.2 Newton"s Method

7

2.3 Secant Method

7

2.3.1 Estimatep2=1.41421356 using Newton"s Method. . . . . . . 8

2.3.2 Example of fractals using Newton"s Method

8

2.4 Order of convergence

9

2.4.1 Newton"s Method

9

2.4.2 Secant Method

10

3 Systems of equations

13

3.1 Gaussian Elimination

13

3.2LUdecomposition. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

3.3 Partial pivoting

16

3.4 Operation counts

18

3.5 System of nonlinear equations

20

4 Least-squares approximation

23

4.1 Fitting a straight line

23

4.2 Fitting to a linear combination of functions

24

5 Interpolation

27

5.1 Polynomial interpolation

27

5.1.1 Vandermonde polynomial

27

5.1.2 Lagrange polynomial

28

5.1.3 Newton polynomial

28

5.2 Piecewise linear interpolation

29

5.3 Cubic spline interpolation

30

5.4 Multidimensional interpolation

33
v

CONTENTS

6 Integration

35

6.1 Elementary formulas

35

6.1.1 Midpoint rule

35

6.1.2 Trapezoidal rule

36

6.1.3 Simpson"s rule

36

6.2 Composite rules

36

6.2.1 Trapezoidal rule

37

6.2.2 Simpson"s rule

37

6.3 Local versus global error

38

6.4 Adaptive integration

39

7 Ordinary differential equations

41

7.1 Examples of analytical solutions

41

7.1.1 Initial value problem

41

7.1.2 Boundary value problems

42

7.1.3 Eigenvalue problem

43

7.2 Numerical methods: initial value problem

43

7.2.1 Euler method

44

7.2.2 Modified Euler method

44

7.2.3 Second-order Runge-Kutta methods

45

7.2.4 Higher-order Runge-Kutta methods

46

7.2.5 Adaptive Runge-Kutta Methods

47

7.2.6 System of differential equations

47

7.3 Numerical methods: boundary value problem

48

7.3.1 Finite difference method

48

7.3.2 Shooting method

50

7.4 Numerical methods: eigenvalue problem

51

7.4.1 Finite difference method

51

7.4.2 Shooting method

53
vi CONTENTS

Chapter 1

IEEE Arithmetic

1.1

Definitions

Bit = 0 or 1

Byte = 8 bits

Word = Reals: 4 bytes (single precision)

8 bytes (double precision)

= Integers: 1, 2, 4, or 8 byte signed

1, 2, 4, or 8 byte unsigned

1.2

Numbers with a decimal or binar ypoint

Decimal: 10

3102101100101102103104

Binary: 2

322212021222324

1.3

Examples of binar ynumbers

Decimal Binary

1 1 2 10 3 11 4 100

0.5 0.1

1.5 1.1

1.4

Hex numbers

1.5

4-bit unsigned integers as hex numbers

Decimal Binary Hex

1 0001 1

2 0010 2

3 0011 3

10 1010 a

15 1111 f

1

1.6. IEEE SINGLE PRECISION FORMAT:

1.6

IEEE single precision for mat:

s z}|{0e z}|{

12345678f

z}|{

9 31

# =(1)s2e1271.f where s = sign e = biased exponent p=e-127 = exponent

1.f = significand (use binary point)

1.7

Special numbers

Smallest exponent: e = 0000 0000, represents denormal numbers (1.f!0.f) Largest exponent: e = 1111 1111, represents¥, if f = 0 e = 1111 1111, represents NaN, if f6=0

Number Range: e = 1111 1111 = 2

8- 1 = 255 reserved

e = 0000 0000 = 0 reserved so, p = e - 127 is

1 - 127p254-127

-126p127

Smallest positive normal number

= 1.0000 0000 00002126 '1.21038 bin: 0000 0000 1000 0000 0000 0000 0000 0000 hex: 00800000

MATLAB: realmin("single")

Largest positive number

= 1.1111 1111 11112127 =(1+ (1223))2127 '2128'3.41038 bin: 0111 1111 0111 1111 1111 1111 1111 1111 hex: 7f7fffff

MATLAB: realmax("single")

Zero bin: 0000 0000 0000 0000 0000 0000 0000 0000 hex: 00000000

Subnormal numbers

Allow 1.f!0.f (in software)

Smallest positive number = 0.0000 0000 00012126 = 2

232126'1.41045

2 CHAPTER 1. IEEE ARITHMETIC

1.8. EXAMPLES OF COMPUTER NUMBERS

1.8

Examples of computer numbers

What is 1.0, 2.0 & 1/2 in hex ?

1.0= (1)02(127127)1.0

bin: 0011 1111 1000 0000 0000 0000 0000 0000 hex: 3f80 0000

2.0= (1)02(128127)1.0

bin: 0100 00000 1000 0000 0000 0000 0000 0000 hex: 4000 0000

1/2= (1)02(126127)1.0

bin: 0011 1111 0000 0000 0000 0000 0000 0000 hex: 3f00 0000 1.9

Inexact numbers

Example:

13 = (1)014 (1+13 so thatp=e127=2 ande=125=1283, or in binary,e=01111101. How is f=1/3 represented in binary? To compute binary number, multiply successively by 2 as follows:

0.333... 0.

0.666... 0.0

1.333... 0.01

0.666... 0.010

1.333... 0.0101

etc. so that 1/3 exactly in binary is 0.010101.... With only 23 bits to representf, the number is inexact and we have f=01010101010101010101011, where we have rounded to the nearest binary number (here, rounded up). The machine number 1/3 is then represented as

00111110101010101010101010101011

or in hex

3eaaaaab.

CHAPTER 1. IEEE ARITHMETIC 3

1.10. MACHINE EPSILON

1.9.1 Find smallest positiv einteger that is not exact in single pre- cision LetNbe the smallest positive integer that is not exact. Now, I claim that

N2=2231.11...1,

and

N1=2241.00...0.

The integerNwould then require a one-bit in the 224position, which is not avail- able. Therefore, the smallest positive integer that is not exact is 2

24+1=16777217.

In MATLAB, single(2

24) has the same value as single(224+1). Since single(224+1)

is exactly halfway between the two consecutive machine numbers 2

24and 224+2,

MATLAB rounds to the number with a final zero-bit in f, which is 2 24.
1.10

Machine epsilon

Machine epsilon(emach)is the distance between 1 and the next largest number. If

0d x+y=x(1+y/x), if 0y/xFindemach

The number 1 in the IEEE format is written as

1=201.000...0,

with 23 0"s following the binary point. The number just larger than 1 has a 1 in the

23rd position after the decimal point. Therefore,

e mach=2231.192107. What is the distance between 1 and the number just smaller than 1? Here, the number just smaller than one can be written as 2quotesdbs_dbs12.pdfusesText_18
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