Calculus Integral Cross Section Volume Problem Model
Druckbare Dateien (18)
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stlaxis.STL
3 Ko · 1 300 Downloads
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stlZ_Axis.STL
25 Ko · 1 287 Downloads
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stltop_function2.1.STL
35 Ko · 1 287 Downloads
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stlbottom_function2.1.STL
32 Ko · 1 284 Downloads
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stlsemicircle_1.STL
19 Ko · 1 277 Downloads
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stlsemicircle_2.STL
20 Ko · 1 277 Downloads
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stlsemicircle_3.STL
20 Ko · 1 270 Downloads
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stlsemicircle_4.STL
20 Ko · 1 276 Downloads
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stlsemicircle_5.STL
20 Ko · 1 271 Downloads
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stlsemicircle_6.STL
20 Ko · 1 270 Downloads
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stlsemicircle_7.STL
20 Ko · 1 274 Downloads
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stlsquare_1.STL
684 o · 1 262 Downloads
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stlsquare_2.STL
684 o · 1 255 Downloads
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stlsquare_3.STL
684 o · 1 259 Downloads
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stlsquare_4.STL
684 o · 1 257 Downloads
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stlsquare_5.STL
684 o · 1 252 Downloads
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stlsquare_6.STL
684 o · 1 262 Downloads
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stlsquare_7.STL
684 o · 1 249 Downloads
Beschreibung
Are you a frustrated calculus teacher? Do you constantly find yourself on the verge of losing your tenure because your students just cannot grasp the concept of using integrals to find the volume of a shape made by using cross sections perpendicular to the x-axis between two curves? Do you just really love calculus and want a cool model of this concept?
Well look no further than the Calculus Integral Cross Section Volume Problem Model! This mouthful of a visual aid will solve all of your calculus class issues and fulfill your desire for a really big math paperweight. It fits in a 25x25x25cm cube (based on the size of the axes).
This model was printed with a 1.0mm nozzle at 0.5mm layer height in order to maximize strength and speed, so tolerances may be different for traditional 0.4mm nozzles and 0.2mm layer heights.