Path: ...!news.mixmin.net!eternal-september.org!feeder3.eternal-september.org!news.eternal-september.org!.POSTED!not-for-mail From: Python <python@invalid.org> Newsgroups: sci.math Subject: Re: How many different unit fractions are lessorequal than all unit fractions? Date: Sat, 7 Sep 2024 16:05:24 +0200 Organization: CCCP Lines: 29 Message-ID: <vbhmj4$1cg6l$4@dont-email.me> References: <vb4rde$22fb4$2@solani.org> <0da78c91e9bc2e4dc5de13bd16e4037ceb8bdfd4@i2pn2.org> <vb57lf$2vud1$1@dont-email.me> <5d8b4ac0-3060-40df-8534-3e04bb77c12d@att.net> <vb6o0r$3a4m1$2@dont-email.me> <7e1e3f62-1fba-4484-8e34-6ff8f1e54625@att.net> <vbabbm$24a94$1@solani.org> <06ee7920-eff2-4687-be98-67a89b301c93@att.net> <38ypmjbnu3EfnKYR4tSIu-WavbA@jntp> <34e11216-439f-4b11-bdff-1a252ac98f8f@att.net> <vbd56i$fqa0$1@dont-email.me> <vbdbq3$gdoe$2@dont-email.me> <vbes57$qdqo$2@dont-email.me> <27b3b5e088d82d4475c68a64f50a4bccac9c6f29@i2pn2.org> <vbesjo$27gfe$1@solani.org> <vbf0s9$qp1j$3@dont-email.me> <vbfpf5$utdu$2@dont-email.me> <vbh5qe$19a45$1@dont-email.me> <vbhdf6$1btm1$1@dont-email.me> <vbhffg$1bi3l$3@dont-email.me> <035b16b56a204dfe5e561b3cfe03238167dba39a@i2pn2.org> <vbhiv7$1bi3k$1@dont-email.me> MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8; format=flowed Content-Transfer-Encoding: 8bit Injection-Date: Sat, 07 Sep 2024 16:05:24 +0200 (CEST) Injection-Info: dont-email.me; posting-host="da221695a87ea1879ed97ba0ecba480a"; logging-data="1458389"; mail-complaints-to="abuse@eternal-september.org"; posting-account="U2FsdGVkX199uiOjR9U0rOPddUS84NlL" User-Agent: Mozilla Thunderbird Cancel-Lock: sha1:hOSINI6MmB1b/6/AVnX8fjlxePM= Content-Language: en-US In-Reply-To: <vbhiv7$1bi3k$1@dont-email.me> Bytes: 2677 Le 07/09/2024 à 15:03, WM a écrit : > On 07.09.2024 14:37, Richard Damon wrote: >> On 9/7/24 8:04 AM, WM wrote: > >>> NUF(x) changes by 1 because a change by more at any x would count >>> more different unit fractions 1/n, 1/m, 1/k, ... which are identical >>> because they are the same x = 1/n = 1/m = 1/k = ... . >>> >> And thus is always has a value of aleph_0 for all x > 0, since there >> is always aleph_0 unit fractions below and finite positive x value. > > Stop that nonsense. ℵo unit fractions cannot fit into every interval (0, > x). Of course they can. "There's Plenty of Room at the Bottom" — Richard Feynman. > The distance between two unit fractions already is larger. Some are, but for ℵo pairs of them they be arbitrary small (i.e. < x). How can you be so wrong on such elementary stuff Crank Mückenheim?