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Bowl of Integers

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Bowl
BowlCircles

Place two solid spheres of radius 1/2 inside a hollow sphere of radius 1 so that the two smaller spheres touch each other at the center of the large sphere and are tangent to the large sphere on the extremities of one of its diameters. This arrangement is called the "bowl of integers" (Soddy 1937) since the bend of each of the infinite chain of spheres that can be packed into it such that each successive sphere is tangent to its neighbors is an integer. The first few bends are then -1, 2, 5, 6, 9, 11, 14, 15, 18, 21, 23, ... (OEIS A046160). The sizes and positions of the first few rings of spheres are given in the table below.

nkappa_nz_nR_nphi_n
1-100--
221/20--
352/52/5sqrt(3)1/6pi
461/22/30
592/32/9sqrt(7)+/-tan^(-1)(1/2sqrt(3))
6118/(11)6/(11)0
714(11)/(14)2/7sqrt(3)1/6pi
8154/52/(15)sqrt(13)+/-tan^(-1)(2sqrt(3))
9185/64/90
10216/72/(21)sqrt(19)+/-tan^(-1)(3/7sqrt(3))
1123(20)/(23)2/(23)sqrt(21)+/-tan^(-1)(1/9sqrt(3))
12278/9(10)/(27)0, +/-tan^(-1)(1/3sqrt(3))
13309/(10)2/(15)sqrt(7)+/-tan^(-1)(1/5sqrt(3))
1433(10)/(11)2/(33)sqrt(31)+/-tan^(-1)(1/(11)sqrt(3))
1538(35)/(38)6/(19)0
BowlMidplane
BowlMidplaneCircles
Bowl1
Bowl2

Spheres can also be packed along the plane tangent to the two spheres of radius 2 (Soddy 1937). The sequence of integers for can be found using the equation of five tangent spheres. Letting kappa_3=kappa_4=2 gives

kappa(kappa_1,kappa_2) =1/2(4+kappa_1+kappa_2+sqrt(3[kappa_2(8-kappa_2)+2kappa_1(kappa_2+4)-3kappa_1^2])).

For example, kappa(3,3)=11, kappa(3,11)=15, kappa(11,15)=27, kappa(15,27)=35, kappa(27,27)=47, and so on, giving the sequence -1, 2, 3, 11, 15, 27, 35, 47, 51, 63, 75, 83, ... (OEIS A046159). The sizes and positions of the first few rings of spheres are given in the table below.

nkappa_nR_nphi_n
1-10--
220--
332/30
4112/(11)sqrt(3)1/6pi
5154/(15)0
6272/(27)sqrt(7)+/-tan^(-1)(3sqrt(3))
7356/(35)0
8474/(47)sqrt(3)1/6pi
9512/(51)sqrt(13)+/-tan^(-1)(3/5sqrt(3))
10638/(63)0
11752/(75)sqrt(19)+/-tan^(-1)(5sqrt(3))
12832/(83)sqrt(21)+/-tan^(-1)(5/3sqrt(3))
1399(10)/(99)0
141076/(107)sqrt(3)1/6pi
151114/(111)sqrt(7)+/-tan^(-1)(1/2sqrt(3))
161232/(123)sqrt(31)+/-tan^(-1)(5/7sqrt(3))
17143(12)/(143)0
181472/(147)sqrt(37)+/-tan^(-1)(7sqrt(3))
191552/(155)sqrt(39)+/-tan^(-1)(1/6sqrt(3))
201712/(171)sqrt(43)+/-tan^(-1)(7/5sqrt(3))
Bowl122

The analogous problem of placing two circles of bend 2 inside a circle of bend -1 and then constructing chains of mutually tangent circles was considered by B. L. Galebach and A. R. Wilks. The circle have integral bends given by -1, 2, 3, 6, 11, 14, 15, 18, 23, 26, 27, 30, 35, 38, ... (OEIS A042944). Of these, the only known numbers congruent to 2, 3, 6, 11 (mod 12) missing from this sequence are 78, 159, 207, 243, 246, 342, ... (OEIS A042945), a sequence which is conjectured to be finite.

Hannachi (pers. comm., Mar. 10, 2006) found a bowl of three spheres with bend 6 and one with bend 7 inside a sphere of bend -3.

See also

Apollonian Gasket, Bend, Coxeter's Loxodromic Sequence of Tangent Circles, Hexlet, Sphere, Tangent Circles, Tangent Spheres

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References

Borkovec, M.; de Paris, W.; and Peikert, R. "The Fractal Dimension of the Apollonian Sphere Packing." Fractals 2, 521-526, 1994.Hannachi, N. "Kissing Circles." http://perso.wanadoo.fr/math-a-mater/pack/packing.htm.Sloane, N. J. A. Sequences A042944, A042945, A046159, and A046160 in "The On-Line Encyclopedia of Integer Sequences."Soddy, F. "The Bowl of Integers and the Hexlet." Nature 139, 77-79, 1937.

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Bowl of Integers

Cite this as:

Weisstein, Eric W. "Bowl of Integers." From MathWorld--A Wolfram Web Resource. https://mathworld.wolfram.com/BowlofIntegers.html

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