Here's the problem (IMO 2013 Problem 1): Assume that k and n are two positive integers. Prove that there exist positive integers m1, ... , mk such that [1+\frac{2^k-1}{n}=\left(1+\frac1{m_1}\right)\cdots \left(1+\frac1{m_k}\right).]
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Segment Tree Math Problem
Here's the problem (IMO 2013 Problem 1): Assume that k and n are two positive integers. Prove that there exist positive integers m1, ... , mk such that [1+\frac{2^k-1}{n}=\left(1+\frac1{m_1}\right)\cdots \left(1+\frac1{m_k}\right).]
Rev. | Язык | Кто | Когда | Δ | Комментарий | |
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en13 | wfe2017 | 2017-02-08 19:48:16 | 71 | |||
en12 | wfe2017 | 2017-02-04 20:08:33 | 144 | |||
en11 | wfe2017 | 2017-02-04 19:35:37 | 69 | |||
en10 | wfe2017 | 2017-02-04 19:33:57 | 407 | |||
en9 | wfe2017 | 2017-02-04 14:52:33 | 604 | |||
en8 | wfe2017 | 2017-02-04 14:17:42 | 365 | |||
en7 | wfe2017 | 2017-02-04 11:16:24 | 7 | Tiny change: ' $l \leq 2\ceil(log_2' -> ' $l \leq 2 \times ceil(log_2' | ||
en6 | wfe2017 | 2017-02-04 11:15:55 | 12 | Tiny change: 'd $l \leq log_2(k)+1$. \n\nCha' -> 'd $l \leq 2\ceil(log_2(k/2+1))$. \n\nCha' | ||
en5 | wfe2017 | 2017-02-04 11:13:54 | 6 | Tiny change: 'er and $l <= log_2(k)+' -> 'er and $l \leq log_2(k)+' | ||
en4 | wfe2017 | 2017-02-04 11:13:32 | 211 | |||
en3 | wfe2017 | 2017-02-04 11:11:40 | 1307 | (published) | ||
en2 | wfe2017 | 2017-02-04 11:03:39 | 7 | |||
en1 | wfe2017 | 2017-02-04 11:03:15 | 271 | Initial revision (saved to drafts) |
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