The didactical level of exposition, together with many astonishing images and animations, accompanied by the related simple computer programming codes (in Python and POV-Ray languages) make this book an extremely and unique useful tool to test the power of algorithmic information in generating ordered structure models (2D and 3D) like regular geometric shapes, complex shapes like fractals and cellular automata, and biological systems as the organs of a living body. Informational biologists besides mathematicians and physicists of complexity may learn to test their own capabilities in programming and modelling ordered structures starting from random initial conditions at different scale of each system: from elementary particles, to biological systems, to galaxies and the whole universe. Moreover the philosophical comments comparing some aspects of modern information theory to the Aristotelian notion of 'form are very appealing also for the epistemologist and the philosopher involved in complexity matters.<b>Contents:</b> <ul><li>Information Towards Aristotelian Form</li><li>Two-Dimensional Structures from Algorithms</li><li>Three-Dimensional Structures from Algorithms</li><li>3<i>D</i> Fractal Landscapes</li><li>3<i>D</i> Fractals with Cylindrical Symmetry</li><li>Three-Dimensional Fractals from Quaternions and Double Complex Numbers</li><li>Fractal Structures from Cellular Automata</li><li>Heart Structure Models from Cellular Automata</li><li>A More Realistic Model of Heart Structure</li></ul><br><b>Readership:</b> Mathematicians, Physicists, Biologists, Bioengineers, Computer Programmers, Science philosophers (of all graduate level).Information and Aristotelian Form;Fractals;Cellular Automata;Chance and Order;Complex Organized Systems;Informatic Biology;Heart Modelling00