Calculus Course Description
Course Credits: 15
Course Curriculum:
Life of Fred Calculus
By Stanley Schmidt
Course Description:
This course covers Functions, Limits, Speed, Slope, Derivatives, Concavity, Trig, Related Rates, Curvature, Integrals, Area, Work, Centroids, Logs, Conics, Infinite Series, Solids of Revolution, Polar Coordinates, Hyperbolic Trig, Vectors, Partial Derivatives, Double Integrals, Vector Calculus, and Differential Equations.
Chapter Titles
Life of Fred Calculus
Chapter 1 Functions
Range, Onto, 1-1 Correspondences, Inverse Functions
Chapter 2 Limits
?-? Definition
Chapter 3 Speed
Average Speed vs. Instantaneous Speed
Chapter 4 Slope
Tangent Lines
Chapter 5 Derivatives
Maximums/Minimums
Product/Quotient/Chain Rules with proofs
Chapter 6 Concavity
Second Derivatives
Asymptotes
Chapter 7 Trigonometry
Tests for Extrema
Chapter 8 Related Rates
Implicit Differentiation
Explicit/Implicit/Parametric representations
Chapter 9 Curvature
Mean Value Theorem and its proof
L'Hospital Rule
Acceleration
Antiderivatives
Chapter 10 Integrals
Fundamental Theorem of Calculus and its proof
Chapter 11 Area
Parametric Forms for Area and Length
Improper Integrals
Chapter 12 Work
Solids of Revolution
Torque
Chapter 13 Centroids
Differentials
Average Value of a Function
Integration by Parts
Moments of Inertia
Chapter 14 Logs
Probability Density Functions
Bounded Increasing Sequences
Chapter 15 Conics
Hydrostatic Force
Oblique Asymptotes
Chapter 16 Infinite Series
Tests for Convergence
Chapter 17 Solids of Revolution
Trig Substitutions
Surface Area
Arc Length
Chapter 18 Polar Coordinates
Alternating Series
Power Series
Evaluating Integrals Using Substitutions
Partial Fractions
Maclaurin and Taylor Series
Remainder Formula for Taylor
Chapter 19 Hyperbolic Trig Functions
Separating the Variables in Differential Equations
Numerical Integration
Chapter 20 Vectors
Scalar and Dot Products
Chapter 21 Partial Derivatives
Chain Rule with Intermediate Variables
Lagrange Multipliers
Chapter 22 Double Integrals
Cylindrical Coordinate System
Spherical Coordinates
Chapter 23 Vector Calculus
Gradient
Directional Derivative
Line Integrals
Green's Theorem
Flux of a Vector through a Surface
Divergence Theorem
Stokes's Theorem
Chapter 24 Differential Equations
Variables Separable
Exact and Integrating Factors
Orthogonal Trajectories
First Order Linear
Bernoulli's equation
Second Order Differential Equations