But in the context of maintaining balance in a walking machine they are derivable from classical mechanics.
--- Frank C. Wimberly 140 Calle Ojo Feliz, Santa Fe, NM 87505 505 670-9918 Santa Fe, NM On Thu, May 14, 2020, 10:14 AM uǝlƃ ☣ <geprope...@gmail.com> wrote: > You're right. There are mechanistic DE models and non-mechanistic DE > models. > > On 5/14/20 9:09 AM, thompnicks...@gmail.com wrote: > > I am way out of my territory, here, but are “differential equasions” > necessarily “first principles”. It seems to me that one could derive > differential equasions based on any fictions. How do I misunderstand what > is going on, here? > > > -- > ☣ uǝlƃ > > .-. .- -. -.. --- -- -..-. -.. --- - ... -..-. .- -. -.. -..-. -.. .- ... > .... . ... > FRIAM Applied Complexity Group listserv > Zoom Fridays 9:30a-12p Mtn GMT-6 bit.ly/virtualfriam > unsubscribe http://redfish.com/mailman/listinfo/friam_redfish.com > archives: http://friam.471366.n2.nabble.com/ > FRIAM-COMIC <http://friam.471366.n2.nabble.com/FRIAM-COMIC> > http://friam-comic.blogspot.com/ >
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