Timeline for Gluing $n$ $2(n-1)$-simplices
Current License: CC BY-SA 4.0
12 events
| when toggle format | what | by | license | comment | |
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| May 31 at 18:20 | comment | added | Bipolar Minds | Ah, sure.. :D In my application, there appears another join with vertices from both A and B mixed on each side, which I am trying to understand for a while now.. Didn't notice that there is also an obvious answer. Thanks, though! | |
| May 31 at 18:03 | comment | added | Dave Benson | Yes, of course. They're the subsets of $A$ and the subsets of $B$ respectively. | |
| May 31 at 16:57 | comment | added | Bipolar Minds | Can you actually describe both simplices in $\Delta^{(n-1)}*\Delta^{(n-1)}$ separetely in terms of your sets $A$ and $B$? | |
| May 21 at 12:48 | comment | added | Bipolar Minds | Thx for accepting the challenge :) my construction was basically the same as yours but I didn't see the join.. | |
| May 20 at 21:06 | comment | added | Dave Benson | I have to say that it was an interesting challenge to guess what you were looking for. The numerology helped. | |
| May 20 at 15:33 | vote | accept | Bipolar Minds | ||
| May 20 at 15:32 | comment | added | Dave Benson | @BipolarMinds Yes it is. | |
| May 20 at 15:31 | comment | added | Bipolar Minds | Yes, it's what I was looking for! Is the delta dot just the boundary of a simplex? | |
| May 20 at 14:47 | history | edited | Dave Benson | CC BY-SA 4.0 |
added 23 characters in body
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| May 20 at 14:45 | history | rollback | Dave Benson |
Rollback to Revision 1
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| May 20 at 14:43 | history | edited | Dave Benson | CC BY-SA 4.0 |
added 69 characters in body
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| May 20 at 14:35 | history | answered | Dave Benson | CC BY-SA 4.0 |