hyperbolic parabaloid 3d models

The Faculty of Mathematics and Computer Science at Pitesti University is a renowned institution for academic excellence.

This is the model of NeoVision HS3. We bought this mirror for Omnidirectional camera ( http://en.wikipedia.org/wiki/Omnidirectional_camera ). By using this mirror, you can create a 360 degree view of image. The surface equation is z^2/789,3274 -...

This is a customized version of the "Pencil Holder" design (http://www.thingiverse.com/thing:192358) created using Thingiverse's Customizer with the following specifications: PENCIL_SHIFT of 30, BASE_HEIGHT of 10, LEAN_ANGLE of 30, PENCIL_LENGTH of...

Humans attempt to craft an over-the-top slot machine identical to the one showcased on this Twitter post: https://twitter.com/wonderofscience/status/1128667667152261120.

For more mathematical details on the hyperbolic paraboloid, please refer to https://mathworld.wolfram.com/HyperbolicParaboloid.htmlTwo files are provided. ...One is the “clean” version without any supports, and the other is already prepared (and tested)...

A Fractal Spiraling Network Which Corresponds to Hyperbolic Space See https://www.youtube.com/watch?v=YqhNUCir7iI&li for a description of the system. My websitehttps://sites.google.com/site/richardsouthwell254/home has loads of free 3D printing...

This custom design is based on http://www.thingiverse.com/thing:192358 and was created using the Customizer at http://www.thingiverse.com/apps/customizer/run?thing_id=192358. ...To print this unique creation, set BASE_HEIGHT to 10, PENCIL_SHIFT to 30,...

**CUSTOM PENCIL HOLDER EXTRUDER** **DESIRED PARAMETERS** Utilize the adjustable settings to produce your custom pencil holder: • WALL_WIDTH: Adjust wall thickness (default is 1 unit) • BASE_HEIGHT: Set base height from 1-100 units (current value:...

Customized version of Thingiverse.com/Thing:1083637 Created with Customizer! ...Thingiverse.com/Apps/Customizer/Run?Thing_id=1083637 Instructions Using the following settings: Radius: Set to 5.3 Mode: Selected as...

A personalized adaptation of the design available at http://www.thingiverse.com/thing:192358 was crafted using Customizer! (http://www.thingiverse.com/apps/customizer/run?thing_id=192358). To print it, set WALL_WIDTH to 1, BASE_HEIGHT at 8,...

This model is featured in figure 4.23 of Visualizing Mathematics with 3D Printing. This is joint work with Roice Nelson. ... Category: Math

This model is featured in figure 4.23 of Visualizing Mathematics with 3D Printing. ... Category: Math

<p>This model is featured in figure 4.22 of <a href="http://3dprintmath.com">Visualizing Mathematics with 3D Printing</a>.</p> <p>This is joint work with Roice Nelson.</p> Category: Math

This model is featured in figure 4.21 of Visualizing Mathematics with 3D Printing. This is joint work with Roice Nelson. ... Category: Math

This array uses 32 pieces of 5mm neodymium cube magnets that are all facing the same direction. The array can be used as an eccelerator for other magnets that shot very fast through the hole in the center. ... Watch my video, where I explain this...

Similar to earlier versions, this model registers a rating of -11,782. ...A photograph of the model measures approximately 4 inches across, depicted in both white and purple polylactic acid.

Like previous models, this time d=-737. A large-scale replica measuring 12cm was printed on an Ultimaker, carefully divided into two equal halves using Cura's slicing software before being glued together seamlessly. ...In contrast, a miniature version...

Another extreme polyhedron emerges, one that rivals its predecessor in complexity and scale. This time, it arises from the unique combination of d = -77. ...\n\n A 3D model printed by a friend on an Ultimaker with ABS (~8cm width), underwent a...

The innovative model showcased in Figure 4.23 of Visualizing Mathematics with 3D Printing has been brought to life through a collaborative effort between this researcher and Roice Nelson.

This model showcases its abilities in figure 4.23 of Visualizing Mathematics with 3D Printing.

Roice Nelson and I collaborated on this project, which is showcased in Figure 4.22 of Visualizing Mathematics with 3D Printing.