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==== Motivations for Geometric Unity ==== | ==== Motivations for Geometric Unity ==== | ||
[[File:GU Presentation Intrinsic-Auxiliary Diagram.png| | [[File:GU Presentation Intrinsic-Auxiliary Diagram.png|thumb|right]] | ||
''[https://youtu.be/Z7rd04KzLcg?t=3552 00:59:12]''<br> | ''[https://youtu.be/Z7rd04KzLcg?t=3552 00:59:12]''<br> | ||
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So I have in mind differential operators, parameterized by some fields \(\omega\), which when composed are not of second-order if these are first-order operators, but of zeroth-order, and some sort of further differential operator saying that whatever those two operators are in composition is in some sense harmonic. Is such a program even possible? So if the universe is in fact capable of being the fire that lights itself, is it capable of managing its own flame as well and closing up? What I'd like to do is to set ourselves an almost impossible task, which is to begin with this little data in a sandbox, to use a computer science concept. | So I have in mind differential operators, parameterized by some fields \(\omega\), which when composed are not of second-order if these are first-order operators, but of zeroth-order, and some sort of further differential operator saying that whatever those two operators are in composition is in some sense harmonic. Is such a program even possible? So if the universe is in fact capable of being the fire that lights itself, is it capable of managing its own flame as well and closing up? What I'd like to do is to set ourselves an almost impossible task, which is to begin with this little data in a sandbox, to use a computer science concept. | ||
[[File:GU Presentation Sandbox Diagram.png| | [[File:GU Presentation Sandbox Diagram.png|thumb|right]] | ||
''[https://youtu.be/Z7rd04KzLcg?t=3911 01:05:11]''<br> | ''[https://youtu.be/Z7rd04KzLcg?t=3911 01:05:11]''<br> |