Timeline for Looking for a precise statement about hyperbolic points in the interior of the Mandelbrot set
Current License: CC BY-SA 4.0
7 events
| when toggle format | what | by | license | comment | |
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| Oct 9 at 5:50 | answer | added | inyo | timeline score: 2 | |
| Sep 1 at 19:51 | comment | added | nonreligious | @DanielAsimov I'm not sure where you're from, but syntactically, each of those statements is one line. If you select each point, hit the Ctrl key (that's usually at the bottom left or right of your keyboard) and hold it while then pressing the "C" key, you can copy the text. If you open up a program like Microsoft Word, you can "paste" the text into it and see that it will fit in one line. | |
| Sep 1 at 18:17 | comment | added | Daniel Asimov | Since each of "conjectures' 1., 2., 3. are multi-line, there is no way to know what "the entire line" refers to. A much better idea would be for you to edit the question so that it is unambiguous. | |
| Sep 1 at 14:06 | comment | added | nonreligious | @DanielAsimov Consider each "conjecture" to comprise the entire line, unless you find the sub-clauses to be inconsistent. | |
| Aug 31 at 19:10 | comment | added | Daniel Asimov | It is hard to know when the "conjectures" you mention end and the next phrase (if any) begins. | |
| Aug 30 at 22:15 | comment | added | Geoffrey Irving | The hyperbolicity conjecture is that all interior points are hyperbolic. Certainly not all points are hyperbolic, as hyperbolic points are always interior, and the Mandelbrot set has a boundary (of dimension 2, even). | |
| Aug 30 at 21:40 | history | asked | nonreligious | CC BY-SA 4.0 |