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Difference between revisions of "Riesel problem 1"
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| − | The '''Riesel problem''' | + | The '''Riesel problem''' involves determining the smallest [[Riesel number]]. |
==Explanations== | ==Explanations== | ||
| − | In 1956, [[Hans Riesel]] showed that there are an infinite number of integers | + | In 1956, [[Hans Riesel]] showed that there are an infinite number of integers <var>k</var> such that {{Kbn|<var>k</var>|2|<var>n</var>}} is not prime for any integer <var>n</var>. He showed that the number <var>k</var> = ''{{Num|509203}}'' has this property. |
| − | It is conjectured that this | + | It is conjectured that this <var>k</var> is the smallest such number that has this property. To prove this, it suffices to show that there exists a value <var>n</var> such that {{Kbn|<var>k</var>|2|<var>n</var>}} is prime for each <var>k</var> < {{Num|509203}}. |
| − | Currently there are '''{{#expr:{{PAGESINCATEGORY:PrimeGrid Riesel Problem}}-1}}''' | + | Currently, there are '''{{#expr:{{PAGESINCATEGORY:PrimeGrid Riesel Problem}}-1}}''' <var>k</var>-values smaller than {{Num|509203}} that have no known prime. These are reserved by the [[PrimeGrid Riesel Problem]] search. |
==Frequencies== | ==Frequencies== | ||
===Definition=== | ===Definition=== | ||
| − | Let | + | Let <var>f<sub>m</sub></var> define the number of <var>k</var>-values (<var>k</var> < {{Num|509203}}, odd <var>k</var>, {{Num|254601}} candidates) with a first prime of {{Kbn|<var>k</var>|2|<var>n</var>}} with <var>n</var> in the interval 2<sup><var>m</var></sup> ≤ <var>n</var> < 2<sup><var>m</var>+1</sup> <ref>[http://www.prothsearch.com/rieselprob.html Riesel problem] by [[Wilfrid Keller]]</ref>. |
===Data table=== | ===Data table=== | ||
| − | The following table shows the current available | + | The following table shows the current available <var>k</var>-values in this Wiki and the targeted values shown by W.Keller for any <var>m</var> ≤ 23. |
:<div style="width:4em; background:PaleGreen; display:inline-block;"> </div> : completely included in the Wiki | :<div style="width:4em; background:PaleGreen; display:inline-block;"> </div> : completely included in the Wiki | ||
{| class="wikitable" style="text-align:right;" | {| class="wikitable" style="text-align:right;" | ||
| − | ! | + | !<var>m</var>!!remain!!current!!target |
|- | |- | ||
| [[:Category:Riesel prime riesel f0|0]] || {{Num|254601}} || {{Num|{{PAGESINCATEGORY:Riesel prime riesel f0|pages|R}}}} || {{Num|39867}} | | [[:Category:Riesel prime riesel f0|0]] || {{Num|254601}} || {{Num|{{PAGESINCATEGORY:Riesel prime riesel f0|pages|R}}}} || {{Num|39867}} | ||
Revision as of 14:35, 10 August 2020
The Riesel problem involves determining the smallest Riesel number.
Contents
Explanations
In 1956, Hans Riesel showed that there are an infinite number of integers k such that k•2n-1 is not prime for any integer n. He showed that the number k = 509,203 has this property. It is conjectured that this k is the smallest such number that has this property. To prove this, it suffices to show that there exists a value n such that k•2n-1 is prime for each k < 509,203.
Currently, there are -1 k-values smaller than 509,203 that have no known prime. These are reserved by the PrimeGrid Riesel Problem search.
Frequencies
Definition
Let fm define the number of k-values (k < 509,203, odd k, 254,601 candidates) with a first prime of k•2n-1 with n in the interval 2m ≤ n < 2m+1 [1].
Data table
The following table shows the current available k-values in this Wiki and the targeted values shown by W.Keller for any m ≤ 23.
- : completely included in the Wiki
| m | remain | current | target |
|---|---|---|---|
| 0 | 254,601 | 0 | 39,867 |
| 1 | 214,734 | 0 | 59,460 |
| 2 | 155,274 | 0 | 62,311 |
| 3 | 92,963 | 0 | 45,177 |
| 4 | 47,786 | 0 | 24,478 |
| 5 | 23,308 | 0 | 11,668 |
| 6 | 11,640 | 0 | 5,360 |
| 7 | 6,280 | 0 | 2,728 |
| 8 | 3,552 | 0 | 1,337 |
| 9 | 2,215 | 0 | 785 |
| 10 | 1,430 | 0 | 467 |
| 11 | 963 | 0 | 289 |
| 12 | 674 | 0 | 191 |
| 13 | 483 | 0 | 125 |
| 14 | 358 | 0 | 87 |
| 15 | 271 | 62 | 62 |
| 16 | 209 | 38 | 38 |
| 17 | 171 | 35 | 35 |
| 18 | 136 | 25 | 25 |
| 19 | 111 | 22 | 22 |
| 20 | 89 | 18 | 18 |
| 21 | 71 | 13 | 13 |
| 22 | 58 | 8 | 8 |
| 23 | 50 | 1 | ≥ 1 |
| unknown | 49 | -1 | 0 |
Notes
See also
External links
Riesel primes
| Base = 2 : |
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