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Through a process known as subdivision a tetrahedron can be broken down to infinity. Subdivision produces the cyclical growth of other structures, such as the cube octahedron (CUO). The lowest frequency tetrahedron capable of “growing” a cube octahedron is the four-frequency tetrahedron. The eight-frequency tetrahedron produces a two-frequency cube octahedron as well. The sixteen-frequency tetrahedron produces a nuclear CUO, a nuclear two-frequency CUO and a nuclear four-frequency CUO. Thus we can say that the sub-division of polyhedra manifests a natural space characterized by transformation and change of scale. Scale change involves systems in which the size of individual forms vary incessantly while the proportions and characteristic shapes of these forms remain constant. These forms and their proportions can be grouped in a regular sequence in which the elements of the sequence constitute an infinite series. Such “scale-invariant” sequences occur in nature (the leaf’s nervure, the laceration of the fern, the widening or narrowing line of the snail shell, the shoreline of the continents, etc). This “invariability” is also a characteristic of fractal geometry. In the Isotropic Vector Matrix the potential for scale change is related to infinite transformation. With every doubling (or halving) of edge-length the volume increases (or decreases) by eight (8), equivalent to the octave in music. The artistic strategy of using transparent oil paint makes it possible to explore and communicate this world of higher dimensions. Scale shifting, or scale change, as well as the repetitious logic enabling it, is known in mathematics as “iteration,” hence the term “iterative mathematics/geometry”. It is a particular feature of IVM that is a useful tool in both mathematics and art education. In particular scale change provides a tool of measurement with which to evaluate angle & distance information.