Take your understanding of relativistic and quantum physics a bit further with the help of this straightforward and powerful cellular automation tool. #Cellular automata simulation #Physics simulation #Cellular automata simulator #Simulator #Cellular automata #Physics
Acts similar to relativistic quantum physics, especially how they form into black holes of objects that broadcast each other to others in the same set, ignoring others due to the multiply routing.
Each physicsmata is a set, an unordered group of other physicsmata.
Physicsmata have an integer limit on the size of themself as a set. I call this setSizeLimit. They start empty. Their current size is called setSize.
Physicsmata can contain themself or many cycles that lead back to themself.
Physicsmata only support 1 function: add(physicsmata), which tries to add a physicsmata to this physicsmata as a set. The function succeeds or not based on a vote each cycle, where in each receiving physicsmata, the physicsmatas that get added the most are actually added in the next cycle. Any number of add calls can be made each cycle, but only setSizeLimit in each physicsmata can succeed.
Each cycle, each physicsmata makes setSize^2 calls of add(physicsmata), between all pairs in the set.
System requirements
physicsmata 2.0
add to watchlist add to download basket send us an update REPORT- runs on:
- Mac OS X (-)
- file size:
- 662 KB
- main category:
- Math/Scientific
- developer:
- visit homepage
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