Nature's patterns: Golden spirals and branching fractals (2024)

Once you start to recognise the golden spiral -- also knownas the Fibonacci spiral -- you'll see it everywhere.

The golden spiral is based on the golden ratio. Symbolisedby the character φ (Phi), it's found when a line is split insuch a way that the larger part divided by the smaller part is equal to thewhole part divided by the larger part -- a ratio of (rounded) 1.618. The Fibonacci sequence isa series of numbers where the ratio of successive numbers is very close to thegolden ratio.

The golden spiral always increases by this ratio-- for every quarter turn the spiral makes, it gets wider by a factor of φ. Here, the golden spiral fits neatly on to a spiral galaxy.

Phyllotaxis refers to the arrangement of the parts of a plant, such as petals and seeds, while parastichy refers to the spiral pattern that occurs during the growth of floral areoles. In some cactuses and succulents, seedpods such as pine cones, and some flowers -- such as sunflowers and daisies, as seen here -- these parastichies conform neatly to the golden spiral.

You can read more about Fibonacci parastichy here.

When lightning strikes -- or when electricity is distributed into the ground or another object -- it creates its own shape in miniature -- a fractally branching form.

This can take the form of scorch marks; or, in silica-rich ground, it can fuse to create fulgurite (Google Images, because they look wicked); and on human beings, it can create lightning-shaped burns on the skin.

If you're interested in learning more about Lichtenberg figures, Captured Lightning has a very thorough overview.

The jagged shape of lightning forms because the electrical discharge does not form from one continuous line; rather, it takes multiple "hops", following an ionised channel of air called a "leader". Once this leader has reached as far as it is able, it will pool ions at the tip, shooting out one or more leaders -- which, in turn, creates the branching fractal pattern.

It's a little more complicated than that, of course; you can read more about step leader lightning here.

On the left is a fluorescence microscopy image of a neuron. On the right? A model of the universe as it exists today, created as part of a computer simulation by a team of astrophysicists to study how the universe grew and evolved.

This could be explained by the holographic principle, i.e., the idea that the universe is a hologram, and each piece of the universe contains information all the information of the whole. Like a fractal: if you were to cut a cloud into two pieces, each piece of the cloud would contain all the information of the whole cloud.

So that means -- yes. You could be carrying an entire universe around in your head. And your mind could be the entire universe. Theoretically, at least.

Read more here.