- #36
Schrodinger's Dog
- 835
- 7
davee123 said:
Someone else got it from some web site, so I'd have to contact them, I'll have a go anyway. That is the answer given and I pretty much cut and pasted the problem, or at least directly copied it.
davee123 said:Could you perhaps post a link to the place where you found it? As it is, the problem isn't deeply flawed, it's just badly worded. And it's not without a solution-- it just kind of sounds like your interpretation of the answer isn't quite right.
DaveE
Schrodinger's Dog said:Someone else got it from some web site, so I'd have to contact them, I'll have a go anyway. That is the answer given and I pretty much cut and pasted the problem, or at least directly copied it.
davee123 said:there's a particular logical method which is attempting to be demonstrated. I can explain that point in very abstract terms, if desired, but it's boring. So usually we like to dress these up as word problems. Hypothetical situations which are interesting to us because there are people and things involved we can relate to.
davee123 said:To expound the point, this is the same problem in a more "pure" format:
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A group of N entities exists. A given entity must be in exactly one of 3 states, A, B, or C. Initially, all N entities are in states A or B, none are in state C. These states do not change from A to B or B to A. All entities observe all of each other exactly once in every given period. Entities observing other entities know the state of the other entity. Entities are not capable of observing or learning their own state directly. They are only able to determine their state through logical deduction. If any entity that is in state B has enough information to deduce that they are in state B, they will change to state C at the immediate end of the current period. No entity will change from state A to state C, and no entity will change from state C to state A or from state C to state B.
All entities are informed at the immediate start of period P that at least one
entity is in state B. At the end of the P+Kth period, some number of entities
change to state C. How many entities changed to state C?
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So, this puzzle has fewer holes, because it doesn't reflect reality. But it's boring as all get-out. Replace the entities with monks, state C with death, or state B as a "disease" and suddenly we've got all kinds of crazy "reality" problems we have to deal with, which aren't really supposed to be part of the riddle.
DaveE
Wizardsblade said:I think I see one problem in logic used:
If x>1 monks are infected then each infected monk will see x-1 infected monks. The infected monks will also know that all the other infected monks see x-1 dots as well, so after the second meal when none die all infected monk will die. Realizing that if the x-1 did not die they must be infected. By the 2nd meal all infected monks die everytime.(of course only 1 meal if only 1 monk is infected.
I could not follow some of the other logic used to solve this problem, and this problem seems to have self sustaining problems.