Difference between revisions of "Chicken McNugget Theorem"
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==Problems== | ==Problems== | ||
===Introductory=== | ===Introductory=== | ||
+ | Marcy buys paint jars in containers of 2 and 7. What's the largest number of paint jars that Marcy can't obtain? | ||
===Intermediate=== | ===Intermediate=== |
Revision as of 20:00, 11 September 2009
The Chicken McNugget Theorem states that for any two relatively prime positive integers , the greatest integer that cannot be written in the form for nonnegative integers is .
Proof
Consider the integers . Let . Note that since and are relatively prime, is a Complete residue system in modulo .
Lemma: For any given residue class , call the member of in this class. All members greater than or equal to can be written in the form while all members less than cannot for nonnegative .
Proof: Each member of the residue class can be written as for an integer . Since is in the form , this can be rewritten as . Nonnegative values of correspond to members greater than or equal to . Negative values of correspond to members less than . Thus the lemma is proven.
The largest member of is , so the largest unattainable score is in the same residue class as .
The largest member of this residue class less than is and the proof is complete.
Problems
Introductory
Marcy buys paint jars in containers of 2 and 7. What's the largest number of paint jars that Marcy can't obtain?
Intermediate
Ninety-four bricks, each measuring are to stacked one on top of another to form a tower 94 bricks tall. Each brick can be oriented so it contribues or or to the total height of the tower. How many different tower heights can be achieved using all ninety-four of the bricks? Source
Olympiad
See Also
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