Advertise here with Carbon Ads

This site is made possible by member support. โค๏ธ

Big thanks to Arcustech for hosting the site and offering amazing tech support.

When you buy through links on kottke.org, I may earn an affiliate commission. Thanks for supporting the site!

kottke.org. home of fine hypertext products since 1998.

๐Ÿ”  ๐Ÿ’€  ๐Ÿ“ธ  ๐Ÿ˜ญ  ๐Ÿ•ณ๏ธ  ๐Ÿค   ๐ŸŽฌ  ๐Ÿฅ”

Boots & Cats: A World Champ Explains the 13 Levels of Beatboxing Complexity

This is fantastic: former beatboxing world champion Butterscotch explains the 13 levels of complexity involved in beatboxing, from the simple “bass drum” to how to breathe while beatboxing to singing to emulating real instruments.

Expert beatboxers go so fast that it’s amazing to see someone with Butterscotch’s skill level break this down โ€” like watching a water balloon bursting in slow motion. Her short explanation & demonstration of “breathing within the beat” bleeeewww my tiny little mind. Also, she is soooo good โ€” what a treat to watch.

See also Robert Lang on the 11 Levels of Complexity of Origami, Tony Hawk on the 21 Levels of Complexity of Skateboard Tricks, and A Demonstration of 16 Levels of Piano Playing Complexity.

Update: Phil Guillory is a speech-language pathologist and he wrote up a technical analysis of Butterscotch’s explanation of beatboxing. It is gloriously nerdy and I love it.

Humming adds a really interesting layer to this. The act of humming itself is a natural nasal sound. The soft palate, or velum, is relaxed, allowing airflow into the nasal passages. Humming requires glottic closure in order to vibrate vocal folds, and those vibrations resonate up the oropharynx and, because the lips are closed, the air then has to travel into the nasopharynx to be released. When Butterscotch adds percussive beats on top of the hum, if there truly is nasal airflow, that would mean that her velum isn’t fully contacting the pharyngeal wall, and there would be a combination of nasal and pharyngeal air flow. Obviously, a video like this won’t allow us to visualize, so we’ll have to make a couple of assumptions here: a combination of oral and nasal airflow would (1) reduce the loudness of the beats while (2) also reducing the loudness of the hum itself. This is because air would be traveling in two directions, so there would be less pressure for both, and thus, less loudness and resonance. Given that the hum sounds pretty consistent, I think it’s safe to guess that Butterscotch is able to relax her velum to allow for nasal airflow voluntarily, which is indeed a very challenging thing to do given that velar movement is largely automatic. Super cool.