Surprises in high dimensions. Martin Lotz Galois Group, April 22, 2015
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1 Surprises in high dimensions Martin Lotz Galois Group, April 22, 2015
2 Ladd Ehlinger Jr. (dir). Flatland, Life in 2D
3 Life in 2D Edwin A. Abbott. Flatland: A Romance of Many Dimensions, The novella describes a two-dimensional world inhabited by geometric figures. Flatlanders would see everything like this: How would we go about describing the third dimensions to a flatlander?
4 What is dimension? A point on a line can be specified using one number A point on a plane is determined by two numbers A point on a plane is determined by three numbers While we can t imagine four or more perpendicular axes, we can speak of the space of real n-tuples (n>3) in geometric terms.
5 The dimension of an object 1 The dimension can be defined as the number of parameters needed to describe an object. There s no reason this should be restricted to 3!
6 What is dimension?
7 What is dimension?
8 Why should we care? Higher dimensional objects appear whenever we are dealing with systems that require more than three parameters to describe! Higher order differential equations reduce to first-order equations in higher dimensions; The location of the hand of a robotic arm depends on various angles and lengths, and can be considered as a high-dimensional problem; The price of stocks depends on many factors: it is a function in highdimensional space; Galois groups can appear as symmetry groups of higher dimensional geometric objects; Countless other examples come to mind!
9 Visualising the fourth dimension There are various strategies to visualize four or more dimensions. Study projections of a higher-dimensional object: This is how we represent 3D objects on a screen! Visualise the structure that defines a higher-dimensional object: combinatorial structure symmetries Interpret the fourth dimension as time.
10 The Platonic solids Polyhedra
11 Polyhedra A polyhedron in three dimensions is defined as the set of points that satisfy a system of linear inequalities. The octahedron with defining equations
12 Polyhedra Given this algebraic description, there is no reason to restrict to three dimensions! A polyhedron in is defined as the set of points that satisfy linear inequalities These higher-dimensional geometric objects are essential in linear programming.
13 Cubes in higher dimensions Cube Hypercube What can we say of the hypercube in higher dimensions?
14 Combinatorial structure A three-dimensional polyhedron has v vertices, e edges, and f facets. These numbers satisfy the Euler relation (verify this on examples!) v-e+f=2 An n-dimensional polyhedron also has faces: these are the points where a fixed set of the defining inequalities are equalities! The faces of an n-dimensional polyhedron can be of dimensions 0 (vertices) to n-1 (facets) and n (the polyhedron itself).
15 Combinatorial structure The combinatorial structure of a polyhedron describes the relationship among the faces. Every vertex is contained in three edges Every edge is contained in two facets Every facet has four edges Every edge has two vertices
16 Combinatorial structure The combinatorial structure of a polyhedron describes the relationship among the faces. For the square: The square has four edges Every edge has two vertices Every vertex has is in two edges
17 Schlegel diagrams Schlegel diagrams are a tried-and-tested method of seeing four (and sometimes higher) dimensional polyhedra.
18 Schlegel diagrams If we label the vertices of the cube by 1,2,3, the corresponding edges by 12, 23, and the facets by 1234,, The complete combinatorial structure can be read off these diagrams!
19 The hypercube What does the Schlegel diagram of a 4D hypercube look like? What we see is the projection onto a threedimensional face of the 4D hypercube. All the combinatorics of this object can be derived from this projection! 16 vertices Each vertex incident to 4 edges 12 edges 8 facets (the seven regions we see in the picture + the projection facet)
20 4D Rubik s Cube Mathematical structure 16 vertices 8 facets/colours (each a 3D cube) Each facet has 27 small cubes There are 24 ways of rotating each facet (the orientation preserving symmetries of the cube) Homework: find out what happens to the other cubes when rotating the blue cube.
21 4D Rubik s Cube
22 Volumes in higher dimensions In one, two and three dimensions we have the notion of length, area, and volume. Volumes in higher dimensions are the subject of measure theory.
23 Computing volumes and areas Volumes and areas can be computed using integrals and symmetry
24 Computing volumes and areas or simply using the combinatorial structure of the object
25 The sphere and cube In two and three dimensions we can embed a unit sphere in a cube of side length 2, with the volume ratios given below.
26 The hypersphere and hypercube The n-dimensional ball of radius r is defined by The n-dimensional sphere of radius r is defined by The n-dimensional hypercube with length 2r is the set
27 The hypersphere and hypercube The volumes of these sets can be computed in the same way as in the three dimensional case: where is the Gamma function, and Let s see how these two volume functions behave as n increases.
28 The hypersphere and hypercube Volume of n-balls Ratio of volume of n-balls to volume of containing n-cubes For example, with n=20 the ratio is
29 Surprise 1 If the ratio of volumes between a hypersphere of diameter 2 and a hypercube of diameter 2 is in dimension 20, this means that only about of the mass (almost all!) of the hypercube is outside the unit ball, concentrated in the corners!
30 Boundaries of n-balls Shells of unit n-balls of width r are defined as the outer boundaries of the ball How much of the mass of a ball is near its boundary?
31 If r=0.01 (1/100) and n=500, then more than 99% of the mass of the n- ball will be in a shell of width 1/100 th of the radius of the sphere, that is, almost on the boundary! Surprise 2
32 Surprise 3 (Concentration of Measure) For example, in dimension n>100, more than 90% of the mass will be concentrated in a tiny neighbourhood of any equator!
33 Thanks!
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