Day Date Section Topics
W Jan 19   First Day, review Chapter 5
F Jan 21 Chapter 5 Finish review of Chapter 5
M Jan 24 Section 6.1 Antiderivatives graphically and numerically
T Jan 25 Section 6.2 Antiderivatives symbolically
W Jan 26 Section 6.2 More on antiderivatives
F Jan 28 Section 6.3, 6.5 Equations of motion
M Jan 31 Section 6.4 The Second Fundamental Theorem
T Feb 1 Section 7.1 Integrals by substitution
W Feb 2 Section 7.1 Practice on integration by substitution
F Feb 4 Sections 7.2 Integration by parts
M Feb 7 Section 7.2 More on integration by parts
T Feb 8 Section 7.3 Integration by table
W Feb 9 Section 7.4 Integration by partial fractions
F Feb 11 Section 7.4 More on partial fractions, trigonometric substitution
M Feb 14 Section 7.4 Trigonometric substitution
T Feb 15 Section 7.1-7.4 Choosing a method
W Feb 16 Section 7.1-7.4 Spare day
F Feb 18 Section 7.5, 7.6 Numerical integration
M Feb 21 Section 7.5, 7.6 Lab Day 1 -- Numerical Integration methods
T Feb 22   Review for Midterm Exam 1
W Feb 23   Midterm Exam 1 given this evening
F Feb 25 Section 7.7 Improper integrals
M Feb 27 Section 7.8 Comparison theorems for improper integrals
T Feb 28 Section 8.1 Setting up integral formulas
W Mar 2 Section 8.2 Volumes (Cavalieri's Principle)
F Mar 4 Section 8.2 Solids of revolution
M Mar 7   Spring Break -- No Class
T Mar 8   Spring Break -- No Class
W Mar 9   Spring Break -- No Class
F Mar 11   Spring Break -- No Class
M Mar 14 Section 8.2 Arc length of curves
T Mar 15   Lab Day 2 -- Applications of integration
W Mar 16 Section 8.3 Density and center of mass
F Mar 18 Section 8.3 More on density and center of mass
M Mar 21 Section 8.6 Densities and Distributions
T Mar 22 Section 8.7 Probability
W Mar 23 Section 8.7 More on probability
F Mar 25   Easter Break -- No Class
M Mar 28   Easter Break -- No Class
T Mar 29   Review for Exam 2
W Mar 30 Section 9.1 Begin geometric series
R Mar 31   Midterm Exam 2 given this evening -- note different day of week
F Apr 1 Section 9.1 Geometric series
M Apr 4 Section 9.2 Convergence of infinite series
T Apr 5 Section 9.2 More on convergence
W Apr 6 Section 9.3 Comparison Test for convergence
F Apr 8 Section 9.3 Ratio test for convergence
M Apr 11 Section 9.4 Power series and radius of convergence
T Apr 12 Section 10.1 Taylor polynomials
W Apr 13 Section 10.1 Lab Day 3 -- Taylor polynomials and series
F Apr 15 Section 10.2 Taylor series
M Apr 18 Section 10.3 Using Taylor series
T Apr 19 Section 10.4 Error in Taylor approximation
W Apr 20 Section 11.1 What is a differential equation?
F Apr 22 Sections 11.2, 11.3 Slope fields and Euler's method
M Apr 25   Lab Day 4 -- Visualizing slope fields and solutions
T Apr 26   Review for Exam 3
W Apr 27 Section 11.4 Midterm Exam 3 given this evening
F Apr 29 Section 11.4, 11.5 Separable equations, growth and decay
M May 2 Section 11.6 Lab Day 5 -- modeling with differential equations
T May 3   Course Wrap-up
W May 4   Study Period
R May 5   Study Period
F May 6   Study Period
T May 10   Final Exam -- 2:30pm