You have a black box. In this black box is 1 penny inside a box, 1 shoe in another box, 1 shoe in another box (the shoes are otherwise identical), 1 safety pin in one box, 1 safety pin in another box, and 1 safety pin in another box (the safety pins are otherwise identical), and 1 button in another. Peculiarly, the boxed items have been boxed in such a way that 6 boxes are contained by the seventh box. Think of Russian Dolls as an example. Unfortunately, the order of the boxes (inmost to outmost) has been "randomized" by a malicious 4-dimensional creature. After opening the first four boxes, determine what the probability is to the nearest millionth that the penny, one shoe, and one safety pin remain.
If my description isn't clear, I can supply a diagram illustrating the idea.
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You have a black box. In this black box is 1 penny inside a box, 1 shoe in another box, 1 shoe in another box (the shoes are otherwise identical), 1 safety pin in one box, 1 safety pin in another box, and 1 safety pin in another box (the safety pins are otherwise identical), and 1 button in another. Peculiarly, the boxed items have been boxed in such a way that 6 boxes are contained by the seventh box. Think of Russian Dolls as an example. Unfortunately, the order of the boxes (inmost to outmost) has been "randomized" by a malicious 4-dimensional creature. After opening the first four boxes, determine what the probability is to the nearest millionth that the penny, one shoe, and one safety pin remain.
If my description isn't clear, I can supply a diagram illustrating the idea.
Good luck!
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