Maple transcripts, AIM transcripts and streaming Quicktime movies
of each session will be available on this page.

- 10 am - 11:30 am
- Introduction, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Plotting With Maple, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Writing Maple 10 Documents, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- AIM log
- 2:30 pm - 4 pm
- A first look at tangent planes, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Local Linearity, either in Quicktime Player or in a new web page using the Quicktime plugin.
- A Catalog of Functions and Surfaces, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- A first look at Tangent Planes, or in pdf format. This worksheet has a version using components: A first look at Tangent Planes (Components)
- Local Linearity, or in pdf format
- A Catalog of Functions and Surfaces, or in pdf format

- AIM log

- 10 am - 11:30 am
- Contour Plots, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Dot and Cross Products, and Using Maple to check partial derivatives, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Using Maple to check partial derivatives, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Plotting in other coordinate systems, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Setting up double integrals, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Integration in polar coordinates, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- Contour Plots, or in pdf format
- Dot and Cross Products, or in pdf format
- Using Maple to check partial derivatives, or in pdf format
- Plotting in other coordinates systems, (not available in pdf format)
- Setting up double integrals, or in pdf format

- AIM log
- 2:30 pm - 4 pm
- Instructor Homework and Integration in polar coordinates (continued), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Triple Integrals, either in Quicktime Player or in a new web page using the Quicktime plugin.
- An Extended Example of Triple Integration, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- AIM log

- 10 am - 11:30 am
- Visualizing Directional Derivatives and Gradients, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Local Extrema, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Lagrange Multipliers, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Advanced Graphics for Instructors, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- Link for Mike's applets: http://www.slu.edu/classes/maymk/MathApplets-SLU.html
- AIM log
- 2:30 pm - 4 pm
- Computing Line Integrals, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Computing Flux Integrals, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Taylor polynomials in several variables, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Animating Taylor polynomials in several variables, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Animating Taylor polynomials with Components, and Component Project, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- Computing Line Integrals, with the VectorCalculus package, or in pdf format
- Computing Flux Integrals, or in pdf format
- Taylor polynomials in several variables, or in pdf format
- Animating Taylor polynomials in several variables, or in pdf format
- Animating Taylor polynomials with Components, or in pdf format
- Component Project, in progress, or in pdf format

- AIM log

- 10 am - 11:30 am
- Multivariable Limits, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Checking differentiability, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Visualizing vectors in 2D and 3D, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Rotations and quadratic functions with cross terms, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Defining double integrals - Riemann Sums, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed worksheets
- AIM log
- 2:30 pm - 4 pm
- Participant project: Maple Introduction - Clickable Calculus (Rich, David and Meg), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Quadratic Approximation (Jen, Costel and Wasin), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Parametric Curves (Kris, Natacha and Sarah), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: ODEs with Components (Lyndell, Lakshmi and Steve), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Lagrange Multipliers (Rob and Bret), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Completed participant projects
- Maple Introduction - Clickable Calculus (Rich, David and Meg), or in pdf format
- Quadratic Approximation (Jen, Costel and Wasin), or in pdf format
- Parametric Curves (Kris, Natacha and Sarah), or in pdf format
- ODEs with Components (Lyndell, Lakshmi and Steve), or in pdf format
- Lagrange Multipliers (Rob and Bret), or in pdf format

- AIM log

- 10 am - 11:30 am
- Workshop Leader homework: Packages and the Assign Command, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Optimization: Unconstrained and Constrained (John I., Dave M. and John W.), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Solids of Intersection: Visualization and Volumes (Andrea, Linda, and David S.), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Vector fields and Green's Theorem (Jonathan, Jan, and Joyce), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Workshop Leader homework
- Homework on Packages, or in pdf format
- The Assign Command, or in pdf format

- Completed participant projects
- Optimization: Unconstrained and Constrained (John I., Dave M. and John W.), or in pdf format
- Solids of Intersection: Visualization and Volumes (Andrea, Linda, and David S.), or in pdf format
- Vector fields and Green's Theorem (Jonathan, Jan, and Joyce), or in pdf format

- AIM log
- 2:30 pm - 4 pm
- Workshop Leader homework: Flow Lines (iterative method) and Planetary Motion, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Curvature and the Osculating Circle (Susan and Peggy), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: The Area of a Surface of Revolution (Steve), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Participant project: Barrel Project (Steve, Lakshmi and Lyndell), either in Quicktime Player or in a new web page using the Quicktime plugin.
- Writing Problems, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Parametric Curves and Conclusion, either in Quicktime Player or in a new web page using the Quicktime plugin.
- Workshop Leader homework
- Flow Lines (iterative method), or in pdf format
- Planetary Motion, or in pdf format

- Completed participant projects
- Curvature and the Osculating Circle (Susan and Peggy), or in pdf format
- The Area of a Surface of Revolution (Steve), or in pdf format
- Barrel Project (Steve, Lakshmi and Lyndell), or in pdf format

- Completed Worksheets
- Writing Problems
- Limits, or in pdf format
- Tangent Planes, or in pdf format
- Partial Derivatives, or in pdf format
- Recognize Contours, or in pdf format
- Extrema, or in pdf format
- Parameterization, or in pdf format

- Parametric Curves, or in pdf format

- Writing Problems
- AIM log

- Completed participant projects

*This PREP workshop is made possible by the NSF grant DUE:
0341481*

**Workshop generously co-sponsored by
Maplesoft
**