Schrodinger's bomb by flubber5

flubber5

136 / 5

1st Sep 2019

1st Sep 2019

Bombs detonate after an unknown amount of time.

bomb random randomizer radioactivedecay unknown howdidyoumake thanos

Comments

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  Aleneration 1st Sep 2019
  Exactly like how radioactive atoms do.
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  Cloverload 1st Sep 2019
  Pretty good visual representation of radioactive decay
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  JohnSmith13345 1st Sep 2019
  Nice, but I am *not* finding the half-life
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  PowderyNerd 1st Sep 2019
  Somebody needs to use this beautiful thing to make a machine that procedurally generates a city or a landscape
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  camtech56 1st Sep 2019
  @TakMashido These ways of obscuring my ability to see the state of the bombs doesn't work. The simulation itself observes the state of the bomb, which means that these things are not quantized.
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  Kicius5 1st Sep 2019
  Top row 14th bomb was the last one standing
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  TakMashido 1st Sep 2019
  @camtech56 just turn off monitor/go for a tea and you will not be able to observe them.
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  camtech56 1st Sep 2019
  This isn't the same quantum concept that was demonstrated in the Schrodinger's Cat thought experiment. The bombs are not in what's called a "superposition" of not being exploded and being exploded. Since we can observe the bombs, then they can only have one state, and thus cannot be in a superposition of two states. Though, exponential decay without the use of radioactive elements is neat. +1.
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  RussianCosmonaut 1st Sep 2019
  interesting +1
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  NPC2 1st Sep 2019
  Correction. The water vapour must touch liquid rubidium, which is present.