Fibonacci Numbers

Math is at the heart of many of the patterns we see in nature. Here's an interesting example called the Fibonacci series, named after an Italian mathematician of the Midde Ages, though the Greeks clearly knew all about it much earlier, as evidenced in the design of classical architecture such as the Parthenon. One common natural example is the number of petals on flowers, though of course there are exceptions.

The series   The ratio
0 + 1 = 1                               1 / 0 = ?
    1 + 1 = 2                           1 / 1 = 1
        1 + 2 = 3                       2 / 1 = 2
            2 + 3 = 5                   3 / 2 = 1.5
                3 + 5 = 8               5 / 3 = 1.67
                    5 + 8 = 13           8 / 5 = 1.6
                        8 + 13 = 21       13 / 8 = 1.625
                            13 + 21 = 34   21 / 13 = 1.615
                                      and so on...          

If we extend the series out indefinitely, the ratio approaches ~1.618:1, a constant we call phi, that is represented by the greek letter φ

3 petals 5 petals 8 petals 13 petals 21 petals
pineapple succulent pine cone nautilus sunflower

Video: Watch the following video for a nice explanation. While the presenter gets a bit carried away with some magical thinking, I like her enthusiasm.

The Golden Ratio

Activity: Get a pineapple and a box of colored push pins. As shown in the video above, put alike colored push pins into each cell of the pineapple, following the whorls, with a different color for each line. Take a picture of the pattern that emerges.

The Golden Spiral is a geometric way to represent the Fibonacci series and is represented in nature, if not always perfectly, in pine cones, nautilus and snail shells, pineapples, and more.

Pineapple Succulent Pine Cone Nautilus Shell Sunflower
pineapple succulent pine cone nautilus sunflower


Golden Spiral

To draw the golden spiral, all you need is a compass and some graph paper or a ruler.


Watch this video to see how.

 

Modeling with Excel: Download this Excel file to create spirals like the Golden Spiral.

spirals  fiddlehead

Explore how modifying the variables affects the curves.

 

Further reading:

https://www.nationalgeographic.org/media/golden-ratio/

http://www.maths.surrey.ac.uk/hosted-sites/R.Knott/Fibonacci/phi2DGeomTrig.html

https://www.youtube.com/watch?v=IGJeGOw8TzQ