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MathWarehouse: Resultant Vector
Resultant Vector, how to calculate a resultant using the parallelogram method and the head to tail method. A resultant is simply... Interactive Parabola Grapher Explore graph ,equation and the locus of a Parabola Save graphs to your desktop! Graphing...
Extreme Optimization: Numerical Linear Algebra Library for C# and VB.NET - Jeffrey Sax, Ex...
statistical distributions, including uniform, Poisson, normal, lognormal, Weibull and Gumbel (extreme value) distributions. Random numbers: Random variates from any distribution, 4 high-quality random number generators, low discrepancy sequences, shufflers. General features Multi-core ready. Take...
The Intimate Machine: Making Faces
One Step Further The six expressions cited above are the most basic and easiest to decipher as identified by Paul Ekman, one of the leaders in facial recognition. Can you think of other emotions and expressions that also present a characteristic appearance? If so, build them on...
FRISCO - A Framework for Integrated Symbolic/Numeric Computation - The Numerical Algorithm...
improved. Links to project deliverables and to websites which contain more recent versions can be found in the Final Project Report. Final Project Report The FRISCO Consortium Project Summary A selection of reports produced by the project The FRISCO Test Suite Some Demonstrations usin...
Polygon Capture: A Geometry Game
objects using their defining properties create and critique inductive arguments concerning geometric ideas and relationships progress from description to analysis of geometric shapes and their properties Materials Polygon Capture Game Rules Polygon Capture Game Cards, photocopied...
Geometric Fractals
Abstract This activity is designed to further the work of the Infinity, Self-Similarity, and Recursion lesson by showing students other classical fractals, the Sierpinski Triangle and Carpet, this time involving iterating with a plane figure. Objectives Upon completion of this lesso...
Introduction to Fractals: Geometric Fractals
Abstract This activity is designed to further the work of the Infinity, Self-Similarity, and Recursion lesson by showing students other classical fractals, the Sierpinski Triangle and Carpet, this time involving iterating with a plane figure. Objectives Upon completion of this lesso...
Teacher/student questioning techniques (K-12)
given a better reason for asking a question than to demonstrate his abysmal ignorance." (T. Manzo) The teacher's prime objective when using Request is to guide the student through as many passages in a selection as are necessary for the student to comprehend the rest of the se...
Gardner's Multiple Intelligences
independent of the learners. Linguistic - using words effectively. These learners have highly developed auditory skills and often think in words. They like reading, playing word games, making up poetry or stories. They can be taught by encouraging them to say and see words, read books...
Introduction to Fractals: Infinity, Self-Similarity and Recursion
similar figures 5.15c The student, using two-dimensional (plane) figures (square, rectangle, triangle, parallelogram, rhombus, kite, and trapezoid) will investigate and describe the results of combining and subdividing shapes 6th Grade Geometry6.15 The student will determine congruen...
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