Table of Contents
 Chapter 1 • Linear Coordinate Systems. Absolute Value. Inequalities
 Chapter 2 • Rectangular Coordinate Systems
 Chapter 3 • Lines
 Chapter 4 • Circles
 Chapter 5 • Equations and Their Graphs
 Chapter 6 • Functions
 Chapter 7 • Limits
 Chapter 8 • Continuity
 Chapter 9 • The Derivative
 Chapter 10 • Rules for Differentiating Functions
 Chapter 11 • Implicit Differentiation
 Chapter 12 • Tangent and Normal Lines
 Chapter 13 • Law of the Mean. Increasing and Decreasing Functions
 Chapter 14 • Maximum and Minimum Values
 Chapter 15 • Curve Sketching. Concavity. Symmetry
 Chapter 16 • Review of Trigonometry

Chapter 17 • Differentiation of Trigonometric Functions
 Transformation of Trigonometric Functions
 Graphs of Trigonometric Functions
 The Graphs of Reciprocal Trigonometric Functions
 Simplifying Trigonometric Expressions Using Trigonometric Identities
 Amplitude and Period of Trigonometric Functions
 Differentiation of Trigonometric Functions
 Differentiation of Reciprocal Trigonometric Functions
 Chapter 18 • Inverse Trigonometric Functions
 Chapter 19 • Rectilinear and Circular Motion
 Chapter 20 • Related Rates
 Chapter 21 • Differentials. Newton’s Method
 Chapter 22 • Antiderivatives
 Chapter 23 • The Definite Integral. Area under a Curve
 Chapter 24 • The Fundamental Theorem of Calculus
 Chapter 25 • The Natural Logarithm
 Chapter 26 • Exponential and Logarithmic Functions
 Chapter 27 • L’Hôpital’s Rule
 Chapter 28 • Exponential Growth and Decay
 Chapter 29 • Applications of Integration I: Area and Arc Length
 Chapter 30 • Applications of Integration II: Volume
 Chapter 31 • Techniques of Integration I: Integration by Parts
 Chapter 32 • Techniques of Integration II: Trigonometric Integrands and Trigonometric Substitutions
 Chapter 33 • Techniques of Integration III: Integration by Partial Fractions
 Chapter 34 • Techniques of Integration IV: Miscellaneous Substitutions
 Chapter 35 • Improper Integrals
 Chapter 36 • Applications of Integration III: Area of a Surface of Revolution
 Chapter 37 • Parametric Representation of Curves
 Chapter 38 • Curvature
 Chapter 39 • Plane Vectors
 Chapter 40 • Curvilinear Motion
 Chapter 41 • Polar Coordinates
 Chapter 42 • Infinite Sequences
 Chapter 43 • Infinite Series
 Chapter 44 • Series with Positive Terms. The Integral Test. Comparison Tests
 Chapter 45 • Alternating Series. Absolute and Conditional Convergence. The Ratio Test
 Chapter 46 • Power Series
 Chapter 47 • Taylor and Maclaurin Series. Taylor’s Formula with Remainder
 Chapter 48 • Partial Derivatives
 Chapter 49 • Total Differential. Differentiability. Chain Rules

Chapter 50 • Space Vectors
 Vector Operations in 3D
 Vectors in Terms of Fundamental Unit Vectors
 Dot Product in 3D
 Cross Product in 3D
 Scalar Triple Product
 Vector Triple Product
 Scalar Projection
 Equation of a Straight Line in Space: Cartesian and Vector Forms
 Equation of a Plane: Intercept and Parametric Forms
 The Perpendicular Distance between Points and Planes
 Parallel and Perpendicular Vectors in Space
 Intersection of Planes
 Angle between Two Straight Lines in Space
 Direction Angles and Direction Cosines
 Equation of a Plane: Vector, Scalar, and General Forms
 Chapter 51 • Surfaces and Curves in Space
 Chapter 52 • Directional Derivatives. Maximum and Minimum Values
 Chapter 53 • Vector Differentiation and Integration
 Chapter 54 • Double and Iterated Integrals
 Chapter 55 • Centroids and Moments of Inertia of Plane Areas
 Chapter 56 • Double Integration Applied to Volume under a Surface and the Area of a Curved Surface
 Chapter 57 • Triple Integrals
 Chapter 58 • Masses of Variable Density

Chapter 59 • Differential Equations of First and Second Order
 Basics of Differential Equations
 Separable Differential Equations
 Homogeneous FirstOrder Differential Equations
 Exact Differential Equations
 FirstOrder Linear Differential Equations
 Bernoulli’s Differential Equation
 Solving FirstOrder Differential Equations by Substitution
 Slope Fields and Solution Curves
 Euler’s Method
 Linear Homogeneous Differential Equations with Constant Coefficients
 Method of Undetermined Coefficients
 Cauchy–Euler Differential Equation