... From: "Jim Whitescarver" <jim@...> ... This seems far too complicated in attempting to analyze many "waves" "pairs" "they" whatever. The lesson of...
Hi Ross, ... many "waves" "pairs" ... all of ... virus or ... plural ... Quantum Mechanics, as it is formulated, deals with Group behaviour[ more correctly,...
From: Koomar The interference patterns you observe on the screen, are interference of probabilities, not the a single electron interfering with itself. < The...
Hi Scerir, ... function ... mathematical ... A little bit of my own philosophy The difficulty is that for every assumption we make, we introduce physically...
From: "Koomar" ... Since 1957 there was a debate between Vladimir A. Fock and Bohr about the interpretation of QM. Fock wrote a paper with the title "My...
One of my objections to the idea that space is essentially cellular has always been the noticable difference between distances measured in real space vs those...
I apologize if I'm out of order since I don't follow this group very closely. I might be re-stating something said before. Anyway, I'd like to raise the...
This article from NYTimes.com has been sent to you by jackogreen@.... May be old news to the list, but here's this piece on the case for a finite 3-torus...
Your model should on average produce a diagonal speed of .75 * sqrt (2) ~= 1.06066... which is close to 1 but no cigar. You could twiddle the probabilities...
As long as we're freestyling on cellular topologies, try this: Populate a plane (or volume) with points placed according to some random distribution (mean...
... very closely. I might be re-stating something said before. Anyway, I'd like to raise the point that "cellular" does not necessitate a "grid". Now, a...
... over ... in ... That's true. The actual probabilities would be 1-cos(angle) and 1-sin (angle) to travel an average Pythagorean distance at a given angle. ...
... Cool! Please keep us informed. My main objection to this concept is that it requires a huge amount of random information to be kept somewhere -- ie each...
... is that it requires a huge amount of random information to be kept somewhere -- ie each cell needs to contain the relevant information about its...
Hi Gary. ... That's a very nice web site. In my opinion, it appears you are nearing close proximity to Plamen Petrov's work in homogeneous cellular spaces: ...
What about Isotropy? Just off the top of my head, so correct me if my reasoning has gone astray :) In the real world things look the same from every direction;...
For any one interested in CA's in general or in simulations that require the conservation laws of the Margolus neighborhood in particular I've managed to...
... Phythagorean theorems do emerge naturally in cellular spaces - but not like that! ;-) http://texturegarden.com/java/water/ (Java applet) is an attempt to...
... Something to ponder ... Violations of phythagoren theorem, may have consequences equivalent to realivity. For example, take a setup like where a light-like...
... wrote: <snip> ... Nice applet. But technically not a CA. The same technique is also being used to model musical instruments, as in this drum model: ...
... How is this not a CA? Take a look at the algorithm he uses. It may be two-stage, but the states of the two can be combined into one cell easily. ... Not...
Let me jump in too. There has been some study of "non-grid" CA. Google on "irregular tesselation". Also, my personal obsession, the Cahill and Klinger model,...
... Yeah it is. Once-removed, perhaps, from a pure CA solution (as we usually understand it) but with THIS solution the tesselation is emergent. The CA and...
... it) ... I had posted a link to Cahill's site several months back to field some commentary on any percieved parallels with "CA and ANKOS"; generated some ...
