Not sure how I would keep track of powers of two with my fingers but base 6 or, my current favorite, base 13 counting is easy enough to keep track.
In principle you use hands as digits, one hand representing ones the other “tens”. With base 6 you count with fingers normally up to 5 and then 6 is represented on another hand. This let’s you count to 35.
Base 13 works by counting bones in your digits using your thumb. Like touching finger segment and that representing a number. So one hand can count up to 12 and then 13 is marked in the same manner on the other hand. This allows to count up to 168 (13 * 13 - 1).
Utilizing all fingers in a binary manner could give 30 bit number (15 finger bones on each hand), but I have no idea how to then keep track of the number using your hands.
Powers of 2 is just counting in binary, finger up is a 1 and down is a 0 so highest you can count all the numbers up to and including is 1111111111 in binary or 1023 base 10
uh, i can count to a billion on my fingers.
Powers of two per knuckle? I’m curious what the method is.
nah just sign language
Not sure how I would keep track of powers of two with my fingers but base 6 or, my current favorite, base 13 counting is easy enough to keep track.
In principle you use hands as digits, one hand representing ones the other “tens”. With base 6 you count with fingers normally up to 5 and then 6 is represented on another hand. This let’s you count to 35.
Base 13 works by counting bones in your digits using your thumb. Like touching finger segment and that representing a number. So one hand can count up to 12 and then 13 is marked in the same manner on the other hand. This allows to count up to 168 (13 * 13 - 1).
Utilizing all fingers in a binary manner could give 30 bit number (15 finger bones on each hand), but I have no idea how to then keep track of the number using your hands.
Powers of 2 is just counting in binary, finger up is a 1 and down is a 0 so highest you can count all the numbers up to and including is 1111111111 in binary or 1023 base 10
I think you could relatively easily go trinary, where a finger is either down, bent, or up. That would get you to 59048
True!
Ok, yeah, a 10 bit number seems doable
I’m going to say something controversial. You could change your system to base 10, by simply stopping after 9 and using the other hand as the “tens”.
This could be easier to see at a glance what number you are holding, it should become the industry standard
That’s already that I have with base 13, although, that does have more mental math.
Well, that’s because you’re AI-generated. Beep beep boop.
Ai can generate hands with a billion fingers, but it can’t count so i guess they’re not likely ai after all.