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Title: Sum of integers whose reciprocals sum to 1 Post by Michael Dagg on Nov 16th, 2008, 11:47am Prove/disprove: Every integer greater than 23 can be written as the sum of integers whose reciprocals sum to 1. |
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Title: Re: Sum of integers whose reciprocals sum to 1 Post by John_Thomas on Dec 7th, 2008, 12:32pm All integers can be written as the sum of integers whose reciprocals sum to 1. Given a set of integers that sums to x and whose reciprocals sum to 1, a set that sums to x+3 (whose reciprocals still sum to 1) can be formed by adding 2, 2, and -1 to the set. A set that sums to x-3 (whose reciprocals still sum to 1) can be formed by adding -2, -2, and 1 to the set. Since there are solutions for 9 (3 + 3 + 3), 10 (2 + 4 + 4), and 11 (2 + 3 + 6), there are solutions for all integers. |
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Title: Re: Sum of integers whose reciprocals sum to 1 Post by towr on Dec 7th, 2008, 1:22pm Heh. I wish I'd spotted that. But how about if the sum needs to consist solely of positive integers? |
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Title: Re: Sum of integers whose reciprocals sum to 1 Post by River Phoenix on Dec 9th, 2008, 4:40pm on 12/07/08 at 13:22:50, towr wrote:
What about distinct integers? Just curious. |
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Title: Re: Sum of integers whose reciprocals sum to 1 Post by towr on Dec 10th, 2008, 12:50am on 12/09/08 at 16:40:49, River Phoenix wrote:
[hide]Every number over (and including) 78 can be written as the sum of distinct integers whose reciprocals sum to 1[/hide] I wouldn't know how to prove it though. |
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