| Giver | Post | Date |
| Niyatee02 | For function #, #x represents the number of distinct positive divisors | 13-Jan-2024 |
| jugranaman1994 | For function #, #x represents the number of distinct positive divisors | 09-Aug-2023 |
| honeybadger66 | For function #, #x represents the number of distinct positive divisors | 02-Aug-2023 |
| SandhraUNair | For function #, #x represents the number of distinct positive divisors | 10-Jul-2023 |
| Dumsy_1711 | For function #, #x represents the number of distinct positive divisors | 05-Jul-2023 |
| brt | For function #, #x represents the number of distinct positive divisors | 22-Jan-2022 |
| AgamKaur | For function #, #x represents the number of distinct positive divisors | 21-Jan-2022 |
| chetan2020 | For function #, #x represents the number of distinct positive divisors | 20-Dec-2021 |
| luqmanomen | For function #, #x represents the number of distinct positive divisors | 17-Nov-2021 |
| sayeed mozomder | For function #, #x represents the number of distinct positive divisors | 11-Oct-2020 |
| Kherarohan8 | For function #, #x represents the number of distinct positive divisors | 29-Apr-2020 |
| PreethuMathRev | For function #, #x represents the number of distinct positive divisors | 29-Apr-2020 |
| danish07 | For function #, #x represents the number of distinct positive divisors | 11-Jan-2019 |
| manishasingh | For function #, #x represents the number of distinct positive divisors | 06-Dec-2018 |
| sasa1112 | For function #, #x represents the number of distinct positive divisors | 11-Sep-2017 |
| Swati.c.Mishra | For function #, #x represents the number of distinct positive divisors | 03-Jun-2017 |
| leia23 | For function #, #x represents the number of distinct positive divisors | 13-May-2017 |
| abcd0087 | For function #, #x represents the number of distinct positive divisors | 03-Oct-2016 |
| amrutapathak | For function #, #x represents the number of distinct positive divisors | 31-Jul-2016 |
| gauraha | For function #, #x represents the number of distinct positive divisors | 25-Apr-2016 |
| shitijhanda | For function #, #x represents the number of distinct positive divisors | 21-Jun-2015 |
| khemaof | For function #, #x represents the number of distinct positive divisors | 30-Sep-2014 |
| Coog84 | For function #, #x represents the number of distinct positive divisors | 28-Sep-2014 |