Difference between revisions of "Unknown fate"

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A different type of unknown fate is that of the [[Collatz 5N+1 simulator]], which may become [[stable]], or an [[oscillator]], or have an indefinitely growing [[bounding box]]. Its behavior is otherwise predictable, and unlike the Fermat prime calculator the [[population]] is known to be bounded.
 
A different type of unknown fate is that of the [[Collatz 5N+1 simulator]], which may become [[stable]], or an [[oscillator]], or have an indefinitely growing [[bounding box]]. Its behavior is otherwise predictable, and unlike the Fermat prime calculator the [[population]] is known to be bounded.
  
[[Conway's Game of Life|Life]] objects having even worse behaviour (e.g. [[chaotic growth]]) are not known as of the end of 2017.  
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[[Conway's Game of Life|Life]] objects having even worse behaviour (e.g. [[chaotic growth]]) are known using the [[0E0P metacell]], although none have been explicitly constructed.
  
 
==External links==
 
==External links==
 
{{LinkLexicon|lex_u.htm#unknownfate}}
 
{{LinkLexicon|lex_u.htm#unknownfate}}

Latest revision as of 21:10, 13 December 2018

An object whose fate is in some way unanswerable with our current knowledge is said to have an unknown fate. The simplest way that the fate of an object can be unknown involves the question of whether or not it exhibits infinite growth. For example, the fate of the Fermat prime calculator is currently unknown, but its behaviour is otherwise predictable.

A different type of unknown fate is that of the Collatz 5N+1 simulator, which may become stable, or an oscillator, or have an indefinitely growing bounding box. Its behavior is otherwise predictable, and unlike the Fermat prime calculator the population is known to be bounded.

Life objects having even worse behaviour (e.g. chaotic growth) are known using the 0E0P metacell, although none have been explicitly constructed.

External links