MATHEMATICS with MATLAB. GRAPHICS and LINEAR ALGEBRA
- Length: 341 pages
- Edition: 1
- Language: English
- Publisher: lulu.com
- Publication Date: 2021-11-27
- ISBN-10: B09MV33YXD
- Sales Rank: #3357534 (See Top 100 Books)
MATLAB is a platform for scientific computing that can work in almost all areas of the experimental sciences and engineering. Logically, this software allows you to work in the field of graphics and linera algebra, featuring some pretty extensive capabilities. The commands that implements MATLAB, about working with graphics and matrix algebra are quite high and very efficient. Matlab functions for working with two-dimensional and three-dimensional graphics, statistical graphs, curves and surfaces in explicit, implicit, parametric and polar coordinates. Additional work perfectly implements the twisted curves, surfaces , meshes , contours , contours, volumes and graphical interpolation. MATLAB allows you to work with ease in the field of Linear Algebra. Its matrix structure facilitates the treatment of matrix algebra, vector and matrix variables and functions, vector spaces, equations and systems, algebraic expressions, polynomials, linear applications, quadratic forms, diagonalization and other typical tasks of linear algebra.
INTRODUCTION INTRODUCTION TO MATLAB 1.1 MATLAB LENGUAGE 1.2 STARTING MATLAB ON WINDOWS. THE MATLAB WORKING ENVIRONMENT 1.3 NUMERICAL COMPUTATION WITH MATLAB 1.4 SYMBOLIC CALCULATIONS WITH MATLAB 1.5 GRAPHICS WITH MATLAB 1.6 HELP WITH COMMANDS MATLAB LANGUAGE ELEMENTS. VARIABLES, NUMBERS, OPERATORS AND FUNCTIONS 2.1 VARIABLES 2.1.1 VECTOR VARIABLES 2.1.2 MATRIX VARIABLES 2.1.3 CHARACTER VARIABLES 2.2 NUMBERS 2.2.1 INTEGERS 2.2.2 FUNCTIONS OF INTEGERS AND DIVISIBILITY 2.2.3 ALTERNATIVE BASES 2.2.4 REAL NUMBERS 2.2.5 FUNCTIONS WITH REAL ARGUMENTS 2.2.6 COMPLEX NUMBERS 2.2.7 FUNCTIONS WITH COMPLEX ARGUMENTS 2.2.8 ELEMENTARY FUNCTIONS THAT SUPPORT COMPLEX VECTOR ARGUMENTS 2.2.9 ELEMENTARY FUNCTIONS THAT SUPPORT COMPLEX MATRIX ARGUMENTS 2.2.10 RANDOM NUMBERS 2.3 OPERATORS 2.3.1 ARITHMETIC OPERATORS 2.3.2 RELATIONAL OPERATORS 2.3.3 LOGICAL OPERATORS 2.3.4 LOGICAL FUNCTIONS 2-D GRAPHICS IN MATLAB. EXPLICIT, PARAMETRIC AND POLAR CURVES. EXPLORATORY GRAPHS 3.1 BASIC COMMANDS FOR 3-D GRAPHICS 3.2 ADDITIONAL ELEMENTS IN A GRAPHS (TITLES, TAGS, MESHES AND TEXTS) 3.3 WORKING WITH AXES AND MULTIPLE GRAPHS 3.4 LOGARITHMIC AND SEMI-LOGARITHMIC GRAPHS 3.5 POLYGONS IN TWO DIMENSIONS 3.6 2-D GRAPHICS IN PARAMETRIC COORDINATES 3.7 2-D GRAPHICS IN POLAR COORDINATES 3.8 EXPLORATORY GRAPHS. BARS AND SECTORS GRAPS. HISTOGRAMS 3.9 STATISTICAL ERRORS AND ARROWS GRAPHICS 3-D GRAPHICS IN MATLAB. 3-D CURVES ON SPACE, SURFACES, MESHES AND CONTOURS. SURFACES OF REVOLUTION 4.1 3-D CURVES ON SPACE 4.2 3-D POLYGONS 4.3 3-D CURVES ON SPACE IN PARAMETRIC COORDINATES 4.4 SURFACES IN EXPLICIT COORDINATES 4.5 SURFACE GRAPHICS: MESH GRAPHICS 4.6 SURFACE GRAPHICS: CONTOUR GRAPHICS 4.7 AXIS, VIEWS, SHADES , COLORS AND BRIGHT IN THREE-DIMENSIONAL GRAPHICS 4.8 PARAMETRIC SURFACES AND REVOLUTION SURFACES 4.9 SPHERES AND CILYNDERS 4.10 HANDLING GRAPHICS COMMANDS MATLAB LANGUAGE ELEMENTS. ALGEBRAIC EXPRESSIONS, POLYNOMIALS, EQUATIONS AND SYSTEMS 5.1 EXP ANDING, SIMPLIFYING AND FACTORING ALGEBRAIC EXPRESSI ONS 5.2 POLYNOMIALS 5.3 POLYNOMIAL INTERPOLATION 5.4 SOLVING EQUATIONS AND SYSTEMS OF EQUATIONS 5.5 GENERAL METHODS 5.6 THE BICONJUGATE GRADIENT METHOD 5.7 THE CONJUGATE GRADIENTS METHOD 5.8 THE RESIDUAL METHOD 5.9 THE SYMMETRIC AND NON-NEGATIVE LEAST SQUARES METHODS 5.10 SOLVING LINEAR SYSTEMS OF EQUATIONS MATRICES, VECTOR SPACES, LINEAR APPLICATIONS AND QUADRATIC FORMS 6.1 MATRIX CALCULUS 6.2 MATRIX OPERATIONS 6.3 EIGENVECTORS AND EIGENVALUES. MATRIX DECOMPOSITIONS 6.4 VECTOR SPACES, LINEAR APPLICATIONS AND QUADRATIC FORMS
Donate to keep this site alive
1. Disable the AdBlock plugin. Otherwise, you may not get any links.
2. Solve the CAPTCHA.
3. Click download link.
4. Lead to download server to download.