I hope this is contribution is appropriate; I think that a niceA puzzle based on Hamming codes discussed a little herehere:http://ocfnash.wordpress.com/2009/10/31/yet-another-prisoner-puzzle/
is the following:
A room contains a normal ×ばつ8 chess board together with 64 identical coins, each with one "heads" side and one "tails" side. Two prisoners are at the mercy of a typically eccentric jailer who has decided to play a game with them for their freedom. The rules are the game are as follows.
The jailer will take one of the prisoners (let us call him the "first" prisoner) with him into the aforementioned room, leaving the second prisoner outside. Inside the room the jailer will place exactly one coin on each square of the chess board, choosing to show heads or tails as he sees fit (e.g. randomly). Having done this he will then choose one square of the chess board and declare to the first prisoner that this is the "magic" square. The first prisoner must then turn over exactly one of the coins and exit the room. After the first prisoner has left the room, the second prisoner is admitted. The jailer will ask him to identify the magic square. If he is able to do this, both prisoners will be granted their freedom
I hope this is contribution is appropriate; I think that a nice puzzle based on Hamming codes discussed a little here:http://ocfnash.wordpress.com/2009/10/31/yet-another-prisoner-puzzle/
is the following:
A room contains a normal ×ばつ8 chess board together with 64 identical coins, each with one "heads" side and one "tails" side. Two prisoners are at the mercy of a typically eccentric jailer who has decided to play a game with them for their freedom. The rules are the game are as follows.
The jailer will take one of the prisoners (let us call him the "first" prisoner) with him into the aforementioned room, leaving the second prisoner outside. Inside the room the jailer will place exactly one coin on each square of the chess board, choosing to show heads or tails as he sees fit (e.g. randomly). Having done this he will then choose one square of the chess board and declare to the first prisoner that this is the "magic" square. The first prisoner must then turn over exactly one of the coins and exit the room. After the first prisoner has left the room, the second prisoner is admitted. The jailer will ask him to identify the magic square. If he is able to do this, both prisoners will be granted their freedom
A puzzle based on Hamming codes discussed here: is the following:
A room contains a normal ×ばつ8 chess board together with 64 identical coins, each with one "heads" side and one "tails" side. Two prisoners are at the mercy of a typically eccentric jailer who has decided to play a game with them for their freedom. The rules are the game are as follows.
The jailer will take one of the prisoners (let us call him the "first" prisoner) with him into the aforementioned room, leaving the second prisoner outside. Inside the room the jailer will place exactly one coin on each square of the chess board, choosing to show heads or tails as he sees fit (e.g. randomly). Having done this he will then choose one square of the chess board and declare to the first prisoner that this is the "magic" square. The first prisoner must then turn over exactly one of the coins and exit the room. After the first prisoner has left the room, the second prisoner is admitted. The jailer will ask him to identify the magic square. If he is able to do this, both prisoners will be granted their freedom
I hope this is contribution is appropriate; I think that a nice puzzle based on Hamming codes discussed a little here: http://ocfnash.wordpress.com/2009/10/31/yet-another-prisoner-puzzle/
is the following:
A room contains a normal ×ばつ8 chess board together with 64 identical coins, each with one "heads" side and one "tails" side. Two prisoners are at the mercy of a typically eccentric jailer who has decided to play a game with them for their freedom. The rules are the game are as follows.
The jailer will take one of the prisoners (let us call him the "first" prisoner) with him into the aforementioned room, leaving the second prisoner outside. Inside the room the jailer will place exactly one coin on each square of the chess board, choosing to show heads or tails as he sees fit (e.g. randomly). Having done this he will then choose one square of the chess board and declare to the first prisoner that this is the "magic" square. The first prisoner must then turn over exactly one of the coins and exit the room. After the first prisoner has left the room, the second prisoner is admitted. The jailer will ask him to identify the magic square. If he is able to do this, both prisoners will be granted their freedom