Thingiverse
Graded Paths Lesson
von stepanp21
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These are two surfaces used in a lesson published by Margaret Reese (citation below). The lesson gives students the formulas for the surfaces of two "mountains":
*f*(*x*,*y*) = 100 - 2*x*2 - *y*2
*g*(*x*,*y*) = 100 + 3*x*2 - 2*y*2
Students are then asked to use the use the tools of mutlivariable calculus and differential equations to find (for a given starting point):
1. The steepest possible path up the mountain
2. A path which ascends the mountain at 50% of the maximum possible steepness.
3. A path which ascends the mountain at a constant grade of 50%.
When assigning this project, I had students sketch the paths they found on the model.
Project source: Reese, Margaret. Computing Project for Multivariable Calculus. *PRIMUS*. Vol. 6, Iss. 2, 1996.
*f*(*x*,*y*) = 100 - 2*x*2 - *y*2
*g*(*x*,*y*) = 100 + 3*x*2 - 2*y*2
Students are then asked to use the use the tools of mutlivariable calculus and differential equations to find (for a given starting point):
1. The steepest possible path up the mountain
2. A path which ascends the mountain at 50% of the maximum possible steepness.
3. A path which ascends the mountain at a constant grade of 50%.
When assigning this project, I had students sketch the paths they found on the model.
Project source: Reese, Margaret. Computing Project for Multivariable Calculus. *PRIMUS*. Vol. 6, Iss. 2, 1996.
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