Re: [math-fun] Suppose you have N congruent non-overlappin ellipses in a circle ...
I probably should have asked if E(N) is monotonic *decreasing*, since E(1) = 1 and for N > 1, E(N) < 1. But after N = 2 it's hard to see what happens. Also, for N large almost all ellipses will not be near the boundary circle, so it seems likely that as N —> oo the configurations will approach close-packed disks in the plane, so the density will approach π/sqrt(12). —Dan ----- Let E(N) be the maximum possible fraction of a 2-disk D's area that is occupied by N non-overlapping, congruent ellipses in D. OK, the supremum. E(N) seems pretty hard to determine explicitly for each N. But one thing that seems not immediately obvious to me is: Question: --------- Is E(N) an increasing function of N ??? -----
I don't seem to have good intuition on this, but do you have an example where N congruent ellipses covers more than N congruent circles? What about very eccentric ellipses whose major axes are like spokes of a wheel? On Mon, May 6, 2019 at 12:44 PM Dan Asimov <dasimov@earthlink.net> wrote:
I probably should have asked if E(N) is monotonic *decreasing*, since E(1) = 1 and for N > 1, E(N) < 1. But after N = 2 it's hard to see what happens.
Also, for N large almost all ellipses will not be near the boundary circle, so it seems likely that as N —> oo the configurations will approach close-packed disks in the plane, so the density will approach π/sqrt(12).
—Dan
----- Let E(N) be the maximum possible fraction of a 2-disk D's area that is occupied by N non-overlapping, congruent ellipses in D.
OK, the supremum.
E(N) seems pretty hard to determine explicitly for each N. But one thing that seems not immediately obvious to me is:
Question: --------- Is E(N) an increasing function of N ??? -----
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