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Introduction
1 Analytic Geometry
2 Instantaneous Rate of Change:
The Derivative
- 1. The slope of a function
- 2. An example
- 3. Limits
- 4. The Derivative Function
- 5. Properties of Functions
3 Rules for Finding Derivatives
- 1. The Power Rule
- 2. Linearity of the Derivative
- 3. The Product Rule
- 4. The Quotient Rule
- 5. The Chain Rule
4 Transcendental Functions
- 1. Trigonometric Functions
- 2. The Derivative of $\sin x$
- 3. A hard limit
- 4. The Derivative of $\sin x$, continued
- 5. Derivatives of the Trigonometric Functions
- 6. Exponential and Logarithmic functions
- 7. Derivatives of the exponential and
logarithmic functions - 8. Implicit Differentiation
- 9. Inverse Trigonometric Functions
- 10. Limits revisited
- 11. Hyperbolic Functions
5 Curve Sketching
- 1. Maxima and Minima
- 2. The first derivative test
- 3. The second derivative test
- 4. Concavity and inflection points
- 5. Asymptotes and Other Things to Look For
6 Applications of the Derivative
- 1. Optimization
- 2. Related Rates
- 3. Newton's Method
- 4. Linear Approximations
- 5. The Mean Value Theorem
7 Integration
8 Techniques of Integration
- 1. Substitution
- 2. Powers of sine and cosine
- 3. Trigonometric Substitutions
- 4. Integration by Parts
- 5. Rational Functions
- 6. Numerical Integration
- 7. Additional exercises
9 Applications of Integration
- 1. Area between curves
- 2. Distance, Velocity, Acceleration
- 3. Volume
- 4. Average value of a function
- 5. Work
- 6. Center of Mass
- 7. Kinetic energy; improper integrals
- 8. Probability
- 9. Arc Length
- 10. Surface Area
10 Polar Coordinates,
Parametric Equations
- 1. Polar Coordinates
- 2. Slopes in polar coordinates
- 3. Areas in polar coordinates
- 4. Parametric Equations
- 5. Calculus with Parametric Equations
11 Sequences and Series
- 1. Sequences
- 2. Series
- 3. The Integral Test
- 4. Alternating Series
- 5. Comparison Tests
- 6. Absolute Convergence
- 7. The Ratio and Root Tests
- 8. Power Series
- 9. Calculus with Power Series
- 10. Taylor Series
- 11. Taylor's Theorem
- 12. Additional exercises
12 Three Dimensions
- 1. The Coordinate System
- 2. Vectors
- 3. The Dot Product
- 4. The Cross Product
- 5. Lines and Planes
- 6. Other Coordinate Systems
13 Vector Functions
- 1. Space Curves
- 2. Calculus with vector functions
- 3. Arc length and curvature
- 4. Motion along a curve
14 Partial Differentiation
- 1. Functions of Several Variables
- 2. Limits and Continuity
- 3. Partial Differentiation
- 4. The Chain Rule
- 5. Directional Derivatives
- 6. Higher order derivatives
- 7. Maxima and minima
- 8. Lagrange Multipliers
15 Multiple Integration
- 1. Volume and Average Height
- 2. Double Integrals in Cylindrical Coordinates
- 3. Moment and Center of Mass
- 4. Surface Area
- 5. Triple Integrals
- 6. Cylindrical and Spherical Coordinates
- 7. Change of Variables
16 Vector Calculus
- 1. Vector Fields
- 2. Line Integrals
- 3. The Fundamental Theorem of Line Integrals
- 4. Green's Theorem
- 5. Divergence and Curl
- 6. Vector Functions for Surfaces
- 7. Surface Integrals
- 8. Stokes's Theorem
- 9. The Divergence Theorem
17 Differential Equations
- 1. First Order Differential Equations
- 2. First Order Homogeneous Linear Equations
- 3. First Order Linear Equations
- 4. Approximation
- 5. Second Order Homogeneous Equations
- 6. Second Order Linear Equations
- 7. Second Order Linear Equations, take two