Universal Natural Shapes
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Transcript of Universal Natural Shapes
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Overview 1.Lamé curves and Universal Natural Shapes
2.Applications: some examples
3.The geometry of means and proportion; n-cubes
4.Fusion in Plants: a simple model using means and proportion
........ and some interesting connections throughout
2
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I. Universal Natural Shapes
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Descartes“What I would like to present to the public is a science with wholly new foundations which will enable us to answer every question that can be put about any kind of quantity whatsoever, whether continuous or discontinuous, each according to its nature.....
In this way I hope to demonstrate that in the case of continuous quantity, certain problems can be solved with straight line and circles alone, that others can be solved only with curves other than circles, but which can be generated by a single motion and which can therefor be drawn using a new compass which I do not believe to be any less accurate than, and just a geometrical as, the ordinary compass which is used to draw circles”.
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Gabriel Lamé’s superellipses
xA+yB= 1
Ax+By= 1
xA+
yB
= 1
xA
⎛⎝⎜
⎞⎠⎟2
+yB
⎛⎝⎜
⎞⎠⎟2
= 1
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Piet Hein’s supereggs
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Nature’s superellipses
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Gielis curves and -transformations
Flowers, leaves, cells, phyllotaxis, eggs, shells, DNA, sand dollars.....
ρ =1Acosm
4ϕ
n2+−1Bsin m
4ϕ
n3⎛
⎝⎜⎞
⎠⎟
− 1n1. f (ϕ )
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3D − supershape(ϕ,θ) xyz
⎡
⎣
⎢⎢⎢
⎤
⎦
⎥⎥⎥=
ρ1 cosϕ.ρ2 cosθρ1 cosϕ.ρ2 sinθρ2 sinθ
⎡
⎣
⎢⎢⎢
⎤
⎦
⎥⎥⎥
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Complex or simple?
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Snowflakes, fluids, diatoms....
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Flowers, shells, phyllotaxis
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Starfish and sea life
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(Bio)molecules
HRV16
Human Rhinovirus 16
0 0 0 2 0 0
0 0 0 0 -2 0
1 1 1 -1 1 -1
-1 1 -1 1 -1 -1
0 0 0 0 -2 0
1 -1 1 1 1 1
Indexed
Ico-Dodecahedral Form
Hadfield et al. Structure 5 (1997) 427-441 (1aym)
PV1 red chains
PV2 green chains
PV3 blue chains
PV4 black chains
. – p.29/35
bh114.8-83 (fig4b)
Facet-like Snow Crystal with Growth Lattice
Regular hexagons with center and vertices at points of the growth lattice
BH 114.8
. – p.4/35
Cyclo. Iso-decagonal
Cyclophilin: Isometric Decagonal Lattice
r°
!
!
1
!3r°
x
y
A
C
P
Q
D
[3 1 1 3, 2]
[-1 -1 -1 -1, 2]
[1 0 0 0, 2]
[0 1 0 0, 2]
[0 0 1 0, 2]
[0 0 0 1, 2]
[1 -1 2 -1, 2]
[1 2 0 3, 2]
[-3 -2 -1 -3, 2]
[3 0 1 2, 2]
[-2 1 -2 -1, 2]
[-1 2 -1 1, 2]
[-1 -1 1 -2, 2]
[2 1 0 3, 2]
[-3 -1 -2 -3, 2]
[3 0 2 1, 2]
Glu15
x
z
4r°
2r°
Glu15
Glu15
[2 1 0 3,-2]
[2 1 0 3, 2]
[-1 2 -1 1,-2]
[-1 2 -1 1, 2]
Ke et al., Current Biology Structure, 2 (1994) 33-44
r0 = a = c
. – p.23/35
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Spheres, of course
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Natural shapes & conic sections
“That we can construct an abstract, purely geometrical theory of morphogenesis, independent of the substrate of forms and the nature of forces that create them, might seem difficult to believe, especially for the seasoned experimentalist who is always struggling with an elusive reality” (René Thom)
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Leopold Verstraelen
“The basic shapes of the highly diverse creatures, objects and phenomena, as they are observed by humans, either visually or with the aid of sophisticated apparatus, can essentially, either singular or in combinations, be considered as derived from a limited number of special types of geometric figures. From Greek science up to the present this is probably the most important subject of natural philosophy.
...When we return to circles, these are the most symmetrical among all planar curves, describing growth from a central point with perfect isotropy. By applying the appropriate Gielis’ transformations (which are technically determined by just a few parameters), this results in an immediate and accurate description of the symmetries and shapes of e.g. flowers or hexagons in viscous fluids or honeycombs.”
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II. Applications
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Computer graphics
Masks for video
Visualisation of sounds
Fractals
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All shapes in less than 4kb
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CAD/CAE/CAM
Heat Shields for Spacecraft Deformation of solids in liquids
EM-waveguides: antenna’s with arbitrary cross section
CAD/CAE
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Imaging, Search & Sound
Modeling and counting blood cells
Specific search algorithms
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Koiso & Palmer
• CMC surfaces: surfaces with constant mean curvature
• CAMC surfaces: with constant anisotropic mean curvature
• Delaunay surfaces: surfaces of revolution of constant mean curvature (catenoid & plane for H = 0, cylinder, unduloid and nodoid for H ≠ 0)
• Anisotropic Delaunay surfaces: CAMC catenoid for example
• http://www.isu.edu/~palmbenn/
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Equilibrium shapes for far-from-equilibrium conditions?
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III. Means and more
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Pascal’s Triangle
•Many beautiful connections, like Fibonacci series, powers of two, connection to means......
•Pascal’s name, but is much older
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Stifel
Yanghui Mersenne
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Lamé in the triangle
From n > 2, a, b, c, n cannot be expressed in integers
Therefore: the modulo part (which is detracted) is non-integer.�
(a + b)2 = a2 + 2ab + b2
a2 + b2 = (a + b)2 − 2aba3 + b3 = (a + b)3 − (3a2b + 3ab2)an + bn = (a + b)n − (..........................) = cn
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The geometry of means
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Means for geometers
•Gaussian curvature K = square of geometric mean
•Mean curvature H = arithmetic mean
•Euler’s inequality: K H2
•This is number theory’s cornerstone
GM AM
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Higher-order means
• AM1/3.HM2/3 =a.b
• AM2/3.HM1/3 =a.b
• GM1/3.GM2/3 =a.b
• AMi/n.HMn-i/n =a.b
• AMn-i/n.HMi/n =a.b
• GMi/n.GMn-i/n =a.b
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Means and the Triangle
•the Lamé-part of an expansion consists of “pure” numbers.
•the modulo-part consists of the various means between two numbers a and b
•Casorati-curvature does not take into account the modulo-part (the mean curvature does)
�
a3 + b3 = (a + b)3 − (3a2b + 3ab2)
�
(a + b)3 = (a3 + b3) + (3a2b + 3ab2)
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n-cubes and n-volume
Conservation of “n-volume” when going around a shape, area when n = 2
�
an + bn = cn
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n-cubes and means•Binomial expansion: cubes and beams
•if you have the volume of a beam, you can make an n-cube with sides M1/n
•For example:
•Then you have only cubes, not beams�
M1/ 3 = a2b3
�
Volume = ( ab23 )3
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René Descartes
“.....others try to express these proportions n ordinary algebraic term by means of several different dimension and shapes. The first they call the root, the second the square, the third the cube, the fourth the biquadrratic. These expressions have, I confess, long misled me... All such names should be abandoned as they are liable to cause confusion in our thinking.
For though a magnitude may be termed a cube or biquadratic, it should never be represented to the imagination otherwise than as a line or a surface. What above all, requires to be noted is that the root, the square, the cubes etc. are merely magnitudes in continued proportion”
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Calculating with cubes
•You can make same dimension for all:
•These are the geometric means between x and the unit element
“Just as the symbol c1/3 is used to represent the side of a cube, a3 has the same dimension as a2b”
René Descartes
�
x 3 + x 2 + x = x 3 + (1.3 x 2)( )3 + (123 x)( )3
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The old notation for numbers
•Used by Barrow, Stevin,......
•When using the unit element
•the number one, or a unit distance is what we always need for comparison
• All one needs to do is calculate the means between the number and the unit element
�
x 3 = x⊗ x⊗ xx 2 = x⊗ x = x⊗ x⊗1
�
Compare : xnwith : x(n−1).1n[ ]n
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IV. Fusion in Plants
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In cacti and succulents
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In flowers (e.g. Asclepiads)
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Constraining of growth through supershapes as constraining functions
r = SF * f(φ) = CF * DF
Question of Karl J. Niklas: Can supershapes describe fusion in flowers?
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Answer: weighted additionr = a CF + (1-a) DF
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The flower model
three basic strategies and combinations thereof
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The deeper meaning:arithmetic and geometric means, once again
Geometric mean GM
Arithmetic mean AM Weighted arithmetic mean WAM Relations Area based on AM Area based on GM
Numbers a and b √a.b (a+b)/2 = w1.a + w2.b GM ≤ AM ((a+b)/2)2 a.b
Flowers, DF and CF √ (DF.CF) (DF+CF)/2
άCF + (1- ά)DF
w1+w2= ά+(1- ά)=1
DF.CF ≤ ((DF+CF)/2)2 ((DF+CF)/2)2 DF.CF
Surfaces, k1 and k2
√(κ1 κ2) = √K
(κ1+ κ2)/2 = H
κ1cos2 φ+ κ2 sin2 φ
(Euler’s theorem)w1+w2 = cos2φ+sin2φ = 1
K ≤ H2 (Euler’s inequality)
H2 = ((κ1+ κ2)/2)2 κ1 κ2 = K
The flower model connects to the deepest notions in mathematics; many results from the geometry of surfaces can be used for the flower model
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“Thus number may be said to rule the world of quantity and the four rules of
arithmetic may be regarded as the complete equipment of the
mathematician”
James Clerk Maxwell
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Addition and multiplication, means
• Against the flow Aeθ + Be-θ
• Fixed number raised to a variable power
Functions eθ and e-θ Polar plane XY-plane
Addition & Arithmetic mean
Logarithmic spiral Catenary
Multiplication & Geometric mean
Circle Straight line
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Addition and multiplication, means
• Alternatively, a variable raised to a fixed power
Functions xn and ym Expression Graph
Addition & Arithmetic mean xn + ym Lamé curves / superellipses
Multiplication & Geometric mean
xn.ym = Cy = C xn/m Power functions, superparabola
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