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Basic Technical Mathematics with Calculus, 11th edition

  • Allyn J. Washington
  • , Richard Evans
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This print textbook is available for students to rent for their classes. The Pearson print rental program provides students with affordable access to learning materials, so they come to class ready to succeed.

 

For courses in technical and pre-engineering technical programs or other programs for which coverage of basic mathematics is required.

 

The best-seller in technical mathematics gets an “Oh, wow!” update

The 11th Edition of Basic Technical Mathematics with Calculus is a bold revision of this classic best-seller. The text now sports an engaging full-color design, and new co-author Rich Evans has introduced a wealth of relevant applications and improvements, many based on user feedback. The text is supported by an all-new online graphing calculator manual, accessible at point-of-use via short URLs. The new edition continues to feature a vast number of applications from technical and pre-engineering fields–including computer design, electronics, solar energy, lasers fiber optics, and the environment–and aims to develop students’ understanding of mathematical methods without simply providing a collection of formulas. The authors start the text by establishing a solid background in algebra and trigonometry, recognizing the importance of these topics for success in solving applied problems.

 

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Students, if interested in purchasing this title with MyLab Math, ask your instructor for the correct package ISBN and Course ID. Instructors, contact your Pearson representative for more information. 

 

 

Published by Pearson (July 14th 2021) - Copyright © 2018

ISBN-13: 9780137554843

Subject: Technical, Trade, & Business Mathematics

Category: Technical Math

Table of Contents

  1. Basic Algebraic Operations
    • 1.1 Numbers
    • 1.2 Fundamental Operations of Algebra
    • 1.3 Calculators and Approximate Numbers
    • 1.4 Exponents and Unit Conversions
    • 1.5 Scientific Notation
    • 1.6 Roots and Radicals
    • 1.7 Addition and Subtraction of Algebraic Expressions
    • 1.8 Multiplication of Algebraic Expressions
    • 1.9 Division of Algebraic Expressions
    • 1.10 Solving Equations
    • 1.11 Formulas and Literal Equations
    • 1.12 Applied Word Problems
  2. Geometry
    • 2.1 Lines and Angles
    • 2.2 Triangles
    • 2.3 Quadrilaterals
    • 2.4 Circles
    • 2.5 Measurement of Irregular Areas
    • 2.6 Solid Geometric Figures
  3. Functions and Graphs
    • 3.1 Introduction to Functions
    • 3.2 More about Functions
    • 3.3 Rectangular Coordinates
    • 3.4 The Graph of a Function
    • 3.5 Graphs on the Graphing Calculator
    • 3.6 Graphs of Functions Defined by Tables of Data
  4. The Trigonometric Functions
    • 4.1 Angles
    • 4.2 Defining the Trigonometric Functions
    • 4.3 Values of the Trigonometric Functions
    • 4.4 The Right Triangle
    • 4.5 Applications of Right Triangles
  5. Systems of Linear Equations Determinants
    • 5.1 Linear Equations and Graphs of Linear Functions
    • 5.2 Systems of Equations and Graphical Solutions
    • 5.3 Solving Systems of Two Linear Equations in Two Unknowns Algebraically
    • 5.4 Solving Systems of Two Linear Equations in Two Unknowns by Determinants
    • 5.5 Solving Systems of Three Linear Equations in Three Unknowns Algebraically
    • 5.6 Solving Systems of Three Linear Equations in Three Unknowns by Determinants
  6. Factoring and Fractions
    • 6.1 Factoring: Greatest Common Factor and Difference of Squares
    • 6.2 Factoring Trinomials
    • 6.3 The Sum and Difference of Cubes
    • 6.4 Equivalent Fractions
    • 6.5 Multiplication and Division of Fractions
    • 6.6 Addition and Subtraction of Fractions
    • 6.7 Equations Involving Fractions
  7. Quadratic Equations
    • 7.1 Quadratic Equations; Solution by Factoring
    • 7.2 Completing the Square
    • 7.3 The Quadratic Formula
    • 7.4 The Graph of the Quadratic Function
  8. Trigonometric Functions of Any Angle
    • 8.1 Signs of the Trigonometric Functions
    • 8.2 Trigonometric Functions of Any Angle
    • 8.3 Radians
    • 8.4 Applications of Radian Measure
  9. Vectors and Oblique Triangles
    • 9.1 Introduction to Vectors
    • 9.2 Components of Vectors
    • 9.3 Vector Addition by Components
    • 9.4 Applications of Vectors
    • 9.5 Oblique Triangles, the Law of Sines
    • 9.6 The Law of Cosines
  10. Graphs of the Trigonometric Functions
    • 10.1 Graphs of y = a sin x and y = a cos x
    • 10.2 Graphs of y = a sin bx and y = a cos bx
    • 10.3 Graphs of y = a sin (bx + c) and y = a cos (bx + c)
    • 10.4 Graphs of y = tan x, y = cot x, y = sec x, y = csc x
    • 10.5 Applications of the Trigonometric Graphs
    • 10.6 Composite Trigonometric Curves
  11. Exponents and Radicals
    • 11.1 Simplifying Expressions with Integer Exponents
    • 11.2 Fractional Exponents
    • 11.3 Simplest Radical Form
    • 11.4 Addition and Subtraction of Radicals
    • 11.5 Multiplication and Division of Radicals
  12. Complex Numbers
    • 12.1 Basic Definitions
    • 12.2 Basic Operations with Complex Numbers
    • 12.3 Graphical Representation of Complex Numbers
    • 12.4 Polar Form of a Complex Number
    • 12.5 Exponential Form of a Complex Number
    • 12.6 Products, Quotients, Powers, and Roots of Complex Numbers
    • 12.7 An Application to Alternating-current (ac) Circuits
  13. Exponential and Logarithmic Functions
    • 13.1 Exponential Functions
    • 13.2 Logarithmic Functions
    • 13.3 Properties of Logarithms
    • 13.4 Logarithms to the Base
    • 13.5 Natural Logarithms
    • 13.6 Exponential and Logarithmic Equations
    • 13.7 Graphs on Logarithmic and Semilogarithmic Paper
  14. Additional Types of Equations and Systems of Equations
    • 14.1 Graphical Solution of Systems of Equations
    • 14.2 Algebraic Solution of Systems of Equations
    • 14.3 Equations in Quadratic Form
    • 14.4 Equations with Radicals
  15. Equations of Higher Degree
    • 15.1 The Remainder and Factor Theorems; Synthetic Division
    • 15.2 The Roots of an Equation
    • 15.3 Rational and Irrational Roots
  16. Matrices; Systems of Linear Equations
    • 16.1 Matrices: Definitions and Basic Operations
    • 16.2 Multiplication of Matrices
    • 16.3 Finding the Inverse of a Matrix
    • 16.4 Matrices and Linear Equations
    • 16.5 Gaussian Elimination
    • 16.6 Higher-order Determinants
  17. Inequalities
    • 17.1 Properties of Inequalities
    • 17.2 Solving Linear Inequalities
    • 17.3 Solving Nonlinear Inequalities
    • 17.4 Inequalities Involving Absolute Values
    • 17.5 Graphical Solution of Inequalities with Two Variables
    • 17.6 Linear Programming
  18. Variation
    • 18.1 Ratio and Proportion
    • 18.2 Variation
  19. Sequences and the Binomial Theorem
    • 19.1 Arithmetic Sequences
    • 19.2 Geometric Sequences
    • 19.3 Infinite Geometric Series
    • 19.4 The Binomial Theorem
  20. Additional Topics in Trigonometry
    • 20.1 Fundamental Trigonometric Identities
    • 20.2 The Sum and Difference Formulas
    • 20.3 Double-Angle Formulas
    • 20.4 Half-Angle Formulas
    • 20.5 Solving Trigonometric Equations
    • 20.6 The Inverse Trigonometric Functions
  21. Plane Analytic Geometry
    • 21.1 Basic Definitions
    • 21.2 The Straight Line
    • 21.3 The Circle
    • 21.4 The Parabola
    • 21.5 The Ellipse
    • 21.6 The Hyperbola
    • 21.7 Translation of Axes
    • 21.8 The Second-degree Equation
    • 21.9 Rotation of Axes
    • 21.10 Polar Coordinates
    • 21.11 Curves in Polar Coordinates
  22. Introduction to Statistics
    • 22.1 Graphical Displays of Data
    • 22.2 Measures of Central Tendency
    • 22.3 Standard Deviation
    • 22.4 Normal Distributions
    • 22.5 Statistical Process Control
    • 22.6 Linear Regression
    • 22.7 Nonlinear Regression
  23. The Derivative
    • 23.1 Limits
    • 23.2 The Slope of a Tangent to a Curve
    • 23.3 The Derivative
    • 23.4 The Derivative as an Instantaneous Rate of Change
    • 23.5 Derivatives of Polynomials
    • 23.6 Derivatives of Products and Quotients of Functions
    • 23.7 The Derivative of a Power of a Function
    • 23.8 Differentiation of Implicit Functions
    • 23.9 Higher Derivatives
  24. Applications of the Derivative
    • 24.1 Tangents and Normals
    • 24.2 Newton’s Method for Solving Equations
    • 24.3 Curvilinear Motion
    • 24.4 Related Rates
    • 24.5 Using Derivatives in Curve Sketching
    • 24.6 More on Curve Sketching
    • 24.7 Applied Maximum and Minimum Problems
    • 24.8 Differentials and Linear Approximations
  25. Integration
    • 25.1 Antiderivatives
    • 25.2 The Indefinite Integral
    • 25.3 The Area Under a Curve
    • 25.4 The Definite Integral
    • 25.5 Numerical Integration: The Trapezoidal Rule
    • 25.6 Simpson's Rule
  26. Applications of Integration
    • 26.1 Applications of the Indefinite Integral
    • 26.2 Areas by Integration
    • 26.3 Volumes by Integration
    • 26.4 Centroids
    • 26.5 Moments of Inertia
    • 26.6 Other Applications
  27. Differentiation of Transcendental Functions
    • 27.1 Derivatives of the Sine and Cosine Functions
    • 27.2 Derivatives of the Other Trigonometric Functions
    • 27.3 Derivatives of the Inverse Trigonometric Functions
    • 27.4 Applications
    • 27.5 Derivative of the Logarithmic Function
    • 27.6 Derivative of the Exponential Function
    • 27.7 L’Hospital’s Rule
    • 27.8 Applications
  28. Methods of Integration
    • 28.1 The Power Rule for Integration
    • 28.2 The Basic Logarithmic Form
    • 28.3 The Exponential Form
    • 28.4 Basic Trigonometric Forms
    • 28.5 Other Trigonometric Forms
    • 28.6 Inverse Trigonometric Forms
    • 28.7 Integration by Parts
    • 28.8 Integration by Trigonometric Substitution
    • 28.9 Integration by Partial Fractions: Non-repeated Linear Factors
    • 28.10 Integration by Partial Fractions: Other Cases
    • 28.11 Integration by Use of Tables
  29. Partial Derivatives and Double Integrals
    • 29.1 Functions of Two Variables
    • 29.2 Curves and Surfaces in Three Dimensions
    • 29.3 Partial Derivatives
    • 29.4 Double Integrals
  30. Expansion of Functions in Series
    • 30.1 Infinite Series
    • 30.2 Maclaurin Series
    • 30.3 Operations with Series
    • 30.4 Computations by Use of Series Expansions
    • 30.5 Taylor Series
    • 30.6 Introduction to Fourier Series
    • 30.7 More About Fourier Series
  31. Differential Equations
    • 31.1 Solutions of Differential Equations
    • 31.2 Separation of Variables
    • 31.3 Integrating Combinations
    • 31.4 The Linear Differential Equation of the First Order
    • 31.5 Numerical Solutions of First-order Equations
    • 31.6 Elementary Applications
    • 31.7 Higher-order Homogeneous Equations
    • 31.8 Auxiliary Equation with Repeated or Complex Roots
    • 31.9 Solutions of Nonhomogeneous Equations
    • 31.10 Applications of Higher-order Equations
    • 31.11 Laplace Transforms
    • 31.12 Solving Differential Equations by Laplace Transforms

Appendix A Solving Word Problems

Appendix B Units of Measurement

Appendix C Newton’s Method

Appendix D A Table of Integrals