[size=150]Finally, we use our new tool [code]Grow() [/code]and the command [url=https://wiki.geogebra.org/en/Iteration_Command]IterationList()[/url] to apply recursion.[br][br][/size][size=100][size=150][b]Remark:[/b] Since we are using randomness at each level, we cannot plot level by level as we did in our [url=https://www.geogebra.org/m/dwpzpvap#material/zyhj9bpv]basic example[/url] using the command Iteration().[br][br][/size][/size][size=150][b]Warning:[/b] In this part, GeoGebra online is slow. It is better to use GeoGebra classic 5 or GeoGebra 6 for desktop.[/size]

ListAll = IterationList(Flatten(Zip(Grow(s), s, level)), level, {{f}}, 8)

[size=150][b]Warning![/b] To avoid issues use 9 as the maximum number of iterations in the desktop version of GeoGebra.[/size]

[size=150]If you want, share your tree(s) with me or maybe other variations to create other kind of fractals. Just send me a twee[/size][size=150]t [url=https://twitter.com/jcponcemath]@jcponcemath[br][br][/url][/size][size=150]Here are are a few examples:[br][br][/size][size=150][url=https://x.com/SparksMaths/status/1737231335113298149?s=20]Koch snowflake[/url] by [url=https://twitter.com/SparksMaths]@SparksMaths[br][br][/url][url=https://twitter.com/bancoche/status/1735909352458813700]3D tree[/url] by [url=https://twitter.com/bancoche]Bernat Ancochea[/url][/size]