Spring 2010

This schedule is subject to change.

Date Topic
Wed 1/13 Introduction, 5 Definite integrals (review), 6.1 Graphical and numerical antiderivatives
Fri 1/15 More 6.1, 6.2 Analytical antiderivatives
Mon 1/18 Martin Luther King, Jr., Day
Wed 1/20 6.3 Differential equations
Fri 1/22 6.4 Fundamental Theorem of Calculus, 6.5 Equations of motion
Mon 1/25 7.1 u-substitution
Wed 1/27 7.2 Integration by parts
Fri 1/29 7.3 Tables, 7.4 Algebraic simplification, and Maple
Mon 2/1 7.5, 7.6 Approximating definite integrals
Wed 2/3 7.7 Improper integrals
Fri 2/5 8.1 Area and volume
Mon 2/8 Catch up, review
Wed 2/10 First midterm (in class)
Fri 2/12 8.2 Geometric applications
Mon 2/15 8.3 Integrals in polar coordinates
Wed 2/17 8.4 Density
Fri 2/19 8.5, 8.6 Applications - physics and economics
Mon 2/22 8.7, 8.8 Distribution functions, probability
Wed 2/24 9.1 Sequences
Fri 2/26 9.2 Geometric series
Mon 3/1 9.3 Convergence
Wed 3/3 9.4 Convergence tests
Fri 3/5 10.1 Taylor polynomials
Mon 3/8 Spring Break
Wed 3/10
Fri 3/12
Mon 3/15 10.2 Taylor series
Wed 3/17 10.3 Finding and using Taylor series
Thurs 3/18 Gladden Lecture, Dr. Riddle, "Pioneering Women in Mathematics"
Fri 3/19 More 10.3, 10.4 Error estimates
Mon 3/22 Catch up, review
Wed 3/24 Second midterm (in class)
Fri 3/26 10.5 Fourier series
Mon 3/29 11.1 Differential equations, 11.2 Slope fields
Wed 3/31 More 11.2, 11.3 Euler's method
Fri 4/2 Easter Break
Mon 4/5 11.4 Separation of variables
Wed 4/7 11.5 Growth and decay
Fri 4/9 11.6 Applications
Mon 4/12 11.7 Population models
Wed 4/14  11.8 Systems of differential equations
Fri 4/16 Appendix B Complex numbers
Mon 4/19 More App. B, 11.10 Second-order differential equations
Wed 4/21 SpARC Day - no classes
Fri 4/23 More 11.10, 11.11 Second-order differential equations
Mon 4/26 Catch up, review