1981 IMO Problems/Problem 4
Problem
(a) For which values of is there a set of consecutive positive integers such that the largest number in the set is a divisor of the least common multiple of the remaining numbers?
(b) For which values of is there exactly one set having the stated property?
Solution
Let be the greatest element of the set. Then divides the least common multiple of the other elements of the set iff. the set has cardinality of at least , since for any of the , we must go down at least to to obtain another multiple of . In particular, there is no set of cardinality 3 satisfying our conditions, because each number greater than or equal two 3 must be divisible by a number that is greater than two and is a power of a prime.
For , we may let , since all the must clearly be less than and this product must also be greater than if is at least 4. For , we may also let , for the same reasons. However, for , this does not work, and indeed no set works other than . To prove this, we simply note that for any integer not equal to 6 and greater than 4 must have some power-of-a-prime factor greater than 3.
Q.E.D.
Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.