![Kissing number problem Unit sphere Two-dimensional space, euclidean, white, text, symmetry png | PNGWing Kissing number problem Unit sphere Two-dimensional space, euclidean, white, text, symmetry png | PNGWing](https://w7.pngwing.com/pngs/215/482/png-transparent-kissing-number-problem-unit-sphere-two-dimensional-space-euclidean-miscellaneous-white-text.png)
Kissing number problem Unit sphere Two-dimensional space, euclidean, white, text, symmetry png | PNGWing
MathType - How many #spheres can touch a central one without overlapping? This #problem was originally brought up by #Newton and #Gregory, and easily solved in 1 and 2 dimensions but it
![David Huycke - Kissing Spheres #5, 2009 - object, silver 925, steel - 165 x 165 x 314 mm (2389 g) | Modern sculpture, Pottery sculpture, Objects design David Huycke - Kissing Spheres #5, 2009 - object, silver 925, steel - 165 x 165 x 314 mm (2389 g) | Modern sculpture, Pottery sculpture, Objects design](https://i.pinimg.com/736x/79/c3/10/79c3109e48fd0893303ef05032d0c37c--kissing-ball-mood-images.jpg)
David Huycke - Kissing Spheres #5, 2009 - object, silver 925, steel - 165 x 165 x 314 mm (2389 g) | Modern sculpture, Pottery sculpture, Objects design
تويتر \ Tamás Görbe على تويتر: "The kissing number problem in 3D was the subject of a famous correspondence between Newton and Gregory in 1694. Newton correctly thought that the kissing number
![Variations on a sangaku problem involving kissing spheres | The Mathematical Gazette | Cambridge Core Variations on a sangaku problem involving kissing spheres | The Mathematical Gazette | Cambridge Core](https://static.cambridge.org/content/id/urn%3Acambridge.org%3Aid%3Aarticle%3AS0025557215000881/resource/name/firstPage-S0025557215000881a.jpg)
Variations on a sangaku problem involving kissing spheres | The Mathematical Gazette | Cambridge Core
![What's the maximum number of points at distance r or more inside a d-dimensional sphere of radius r? - Mathematics Stack Exchange What's the maximum number of points at distance r or more inside a d-dimensional sphere of radius r? - Mathematics Stack Exchange](https://i.stack.imgur.com/x88xU.jpg)