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

Monday July 24

• 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
  • Just Enough Maple for Calculus, or in pdf format
  • Plotting With Maple, or in pdf format
  • Writing Maple 10 Documents, or in pdf format
• 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.
• 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.
• Completed worksheets
  • Answer to a participant question: How to add points, crosses, text and arrows to plots, or in pdf format
  • A first look at Tangent Planes, or in pdf format
  • Local Linearity, or in pdf format
  • A Catalog of Functions and Surfaces, or in pdf format
  • Contour Plots, or in pdf format
  • Dot and Cross Products, or in pdf format
• AIM log

Tuesday July 25

• 10 am - 11:30 am
• 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.
• Triple Integrals, either in Quicktime Player or in a new web page using the Quicktime plugin.
• Completed worksheets
  • 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
  • Integration in polar coordinates, or in pdf format
  • Triple Integrals, or in pdf format
• AIM log
• 2:30 pm - 4 pm
• An Extended Example of Triple Integration, either in Quicktime Player or in a new web page using the Quicktime plugin.
• 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.
• Completed worksheets
  • An Extended Example of Triple Integrals, or in pdf format
  • Visual Directional Derivatives and Gradients, or in pdf format
  • Local Extrema, or in pdf format
  • Lagrange Multipliers, or in pdf format
• AIM log

Wednesday July 26

• 10 am - 11:30 am
• Advanced Graphics for Instructors, either in Quicktime Player or in a new web page using the Quicktime plugin.
• 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.
• Completed worksheets
  • Advanced Graphics for Instructors, or in pdf format
  • Computing Line Integrals,, or in pdf format
  • 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
• AIM log
• 2:30 pm - 4 pm
• Animating Taylor polynomials in several variables, either in Quicktime Player or in a new web page using the Quicktime plugin.
• 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.
• Completed worksheets
  • Animating Taylor polynomials in several variables, or in pdf format
  • Multivariable Limits, or in pdf format
  • Checking differentiability, or in pdf format
  • Visualizing vectors in 2D and 3D, or in pdf format
• AIM log

Thursday July 27

• 10 am - 11:30 am
• Questions from Wednesday, 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.
• Applets, 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.
• Plotting Vector Fields, either in Quicktime Player or in a new web page using the Quicktime plugin.
• Parametric Curves, either in Quicktime Player or in a new web page using the Quicktime plugin.
• Completed worksheets
  • Questions from Wednesday, or in pdf format
  • Rotations and quadratic functions with cross terms, or in pdf format
  • Defining double integrals - Riemann Sum (not available in pdf format)
  • Plotting Vector Fields, or in pdf format
  • Parametric Curves, or in pdf format
• AIM log
• 2:30 pm - 4 pm
• Participant project: Graphing Functions of Two Variables (Jerome and Bill), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Participant project: Partial Derivatives, Tangent Planes, and Directional Derivatives (Mary M.), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Participant project: Geometry of the Line Integral (Anna, Christian and Louise), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Participant project: Lines and planes (Curtis, Jay and Margaret), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Completed participant projects
  • Graphing Functions of Two Variables (Jerome and Bill) (not available in pdf format)
  • Partial Derivatives, Tangent Planes, and Directional Derivatives (Mary M.), or in pdf format
  • Geometry of the Line Integral (Anna, Christian and Louise) (not available in pdf format)
  • Lines and planes (Curtis, Jay and Margaret), or in pdf format
• AIM log

Friday July 28

• 10 am - 11:30 am
• Participant project: Riemann Sums in Two Variables: Estimating Using Tabular Data (Chris and Michael), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Participant project: The twisted cubic: Tangent, Normal and Binormal vectors (Scott, Lia and Mary P.), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Spreadsheet Example, and Workshop Leader homework: A tube of vectors, either in Quicktime Player or in a new web page using the Quicktime plugin.
• Workshop Leader homework: Green's Theorem, either in Quicktime Player or in a new web page using the Quicktime plugin.
• Completed participant projects
  • Riemann Sums in Two Variables: Estimating Using Tabular Data (Chris and Michael), or in pdf format
  • The twisted cubic: Tangent, Normal and Binormal vectors (Scott, Lia and Mary P.), or in pdf format
• Workshop Leader homework
  • Spreadsheet Example, or in pdf format
  • A tube of vectors, or in pdf format
  • Green's and Stokes' Theorems, or in pdf format
• AIM log
• 2:30 pm - 4 pm
• Participant project: Vector Calculus Theorems: Green's, Stokes' and Divergence (Frank, Sergio and Jenny), either in Quicktime Player or in a new web page using the Quicktime plugin.
• Visualizing the Multivariable Chain Rule Quicktime Player or in a new web page using the Quicktime plugin.
• Parametric Surfaces, either in Quicktime Player or in a new web page using the Quicktime plugin.
• Completed participant projects
  • Vector Calculus Theorems: Green's, Stokes' and Divergence (Frank, Sergio and Jenny), or in pdf format
• Completed Worksheets
  • Visualizing the Multivariable Chain Rule (not available in pdf format)
  • Parametric Surfaces (not available in pdf format)
• AIM log

Materials added after the workshop

• Completed participant projects
  • Local Maxima, Minima, and Saddle points (Karin and Sang), or in pdf format