3. INCE earliest history, man has continued to develop his sense of proportion in the shaping of his world. With the development of mathematics (the measuring of objects and space), early design began the arrangement of objects in harmonious relationship to each other and the space they occupied.
11. To construct the Golden Mean take a one by one square, repeat it. Create a two by two square on one edge. Then the three by three, etc. The whole set follows what is called a Fibonacci series
12. Tracing out the natural curve creates the nautilus shell shape
13. In the Nautilus shell the ratio of each segment to the next is; 1.618:1 Again the golden Mean.
15. The spirals in this plant follow precisely the golden mean curve. This occurs because they are arranged at 360/1.618 degrees to each other
16.
17.
18.
19. Dynamic Symmetry In the twentieth century two people played primary roles in the revival of the golden section as a design element. One was Jay Hambridge, and author and art instructor, whose book, Elements of Dynamic Symmetry' was first published in 1920. The other was Le Corbusier, an authentic genius of twentieth century design, who developed our first clearly identifiable design system called the Modulor.
20. Fashion The golden mean gauge shows that the dominant landmarks are in the golden proportion
22. The four front teeth, from central incisor to premolar are the most significant part of the smile and they are in the Golden Proportion to each other.
23. When written freehand we tend to design letters so that the intersections are in the ratio of the Golden Mean. To a greater or lesser degree of accuracy. Using examples of your freehand typography designs estimate the ratio.
24. The size of the top loop is in proportion to the bottom loop.