S C alculu. 1. Preliminaries 2. Functions and Limits 3. The Derivative 4. Applications of the Derivative 5. The Integral 6. Applications of the Integral.

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Presentation transcript:

s C alculu

1. Preliminaries 2. Functions and Limits 3. The Derivative 4. Applications of the Derivative 5. The Integral 6. Applications of the Integral BackClose Forward

7. Transcendental Functions 8. Techniques of Integration 9. Indeterminate Forms and Improper Integrals 10. Infinite Series 11. Numerical Methods, Approximations 12. Conics and Polar Coordinates BackClose Forward

13. Geometry in the Plane, Vectors 14. Geometry in Space, Vectors 15. The Derivative in n-Space 16. The Integral in n-Space 17. Vector Calculus 18. Differential Equations BackClose

1.1 The Real Number System 1.2 Decimals, Calculators, Estimation 1.3 Inequalities 1.4 Absolute Values, Square Roots, Squares 1.5 The Rectangular Coordinate System 1.6 The Straight Line 1.7 Graphs of Equations BackClose

2.1 Functions and Their Graphs 2.2 Operations on Functions 2.3 The Trigonometric Functions 2.4 Introduction to Limits 2.5 Rigorous Study of Limits 2.6 Limit Theorems 2.7 Limits Involving Trigonometric Functions 2.8 Limits at Infinity, Infinite Limits 2.9 Continuity of Functions BackClose

3.1 Two Problems with One Theme 3.2 The Derivative 3.3 Rules for Finding Derivatives 3.4 Derivatives of Trigonometric Functions 3.5 The Chain Rule 3.6 Leibniz Notation 3.7 Higher-Order Derivatives 3.8 Implicit Differentiation 3.9 Related 3.10 Differentials and Approximations BackClose

4.1 Maxima and Minima 4.2 Monotonicity and Concavity 4.3 Local Maxima and Minima 4.4 More Max-Min Problems 4.5 Economic Applications 4.6 Sophisticated Graphing 4.7 The Mean Value Theorem BackClose

5.1 Antiderivatives (Indefinite Integrals) 5.2 Introduction to differential Equations 5.3 Sums and Sigma Notation 5.4 Introduction to Area 5.5 The Definite Integral 5.6 The First Fundamental Theorem of Calculus 5.7 The Second Fundamental Theorem of Calculus and the Mean Value Theorem for Integrals 5.8 Evaluating Definite Integrals BackClose

6.1 The Area of a Plane Region 6.2 Volumes of Solids: Slabs, Disks, Washers 6.3 Volumes of Solids of Revolution: Shells 6.4 Length of a Plane Curve 6.5 Work 6.6 Moments, Center of Mass BackClose

7.1 The Natural Logarithm Function 7.2 Inverse Functions and Their Derivatives 7.3 The Natural Exponential Functions 7.4 General Exponential and Logarithmic Functions 7.5 Exponential Growth and Decay 7.6 First-Order Linear Differential Equations 7.7 The Inverse Trigonometric Functions and Their Derivatives 7.8 The Hyperbolic Functions and Their Inverses BackClose

8.1 Integration by Substitution 8.2 Some Trigonometric Integrals 8.3 Rationalizing Substitutions 8.4 Integration by Parts 8.5 Integration of Rational Functions BackClose

9.1 Indeterminate Forms of Type 0/0 9.2 Other Indeterminate Forms 9.3 Improper Integrals: Infinite limits of Integration 9.4 Improper Integrals: Infinite Integrations BackClose

10.1 Infinite Sequences 10.2 Infinite Series 10.3 Positive Series: The Integral 10.4 Positive Series: Other Tests 10.5 Alternating Series, Absolute Convergence, and Conditional Convergence 10.6 Power Series 10.7 Operations on Power Series 10.8 Taylor and Maclaurin Series BackClose

11.1 The Taylor Approximation to a Function 11.2 Numerical Integration 11.3 Solving Equations Numerically 11.4 The Fixed-Point Algorithm 11.5 Approximations for Differential Equations BackClose

12.1 The Parabola 12.2 Ellipses and Hyperbolas 12.3 More on Ellipses and Hyperbolas 12.4 Translation of Axes 12.5 Rotation of Axes 12.6 The Polar Coordinate System 12.7 Graphs of Polar Equations 12.8 Calculus in Polar Coordinates BackClose

13.1 Plane Curves: Parametric Representation 13.2 Vectors in the Plane: Geometric Approach 13.3 Vectors in the Plane: Algebraic Approach 13.4 Vector-Valued Functions and Curvilinear Motion 13.5 Curvature and Acceleration BackClose

14.1 Cartesian Coordinates in Three-Space 14.3 The Cross Product 14.4 Lines and Curves in Three-Space 14.2 Vectors in Three-Space 14.5 Velocity, Acceleration, and Curvature 14.6 Surfaces in Three-Space 14.7 Cylindrical and Spherical Coordinates BackClose

15.1 Function of Two or More Variables 15.2 Partial Derivatives 15.3 Limits and Continuity 15.4 Differentiability 15.5 Directional Derivatives and Gradients 15.6 The Chain Rule 15.7 Tangent Planes, Approximations 15.8 Maxima and Minima 15.9 Lagrange’s Method BackClose

16.1 Double Integrals over Rectangles 16.2 Iterated Integrals 16.3 Double Integrals over Nonrectangular Regions 16.4 Double Integrals in Polar Coordinates 16.5 Applications of Double Integrals 16.6 Surface Area 16.7 Triple Integrals (Cartesian Coordinates) 16.8 Triple Integrals (Cartesian and Spherical Coordinates) BackClose

17.1 Vector Fields 17.2 Line Integrals 17.3 Independence of Path 17.4 Green’s Theorem in the Plane 17.5 Surface Integrals 17.6 Gauss’s Divergence Theorem 17.7 Stokes’s Theorem BackClose

18.1 Linear Homogeneous Equations 18.2 Nonhomogeneous Equations 18.3 Applications of Second-Order Equations BackClose

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