Individual Calculations January 2014 |
|
|
Bhat, Vishal Total change: 48.30 | | ![Rating chart](/imga/chart.gif) ![Personal card](/imga/card.gif) |
|
Andrew Saint and Hannibal Swartz Memorial 2013 | Melbourne | AUS | 2013-12-06 |
Rc | Ro | w | n | change | K | K*chg | Game |
1807 | 1461 | 1.50 | 5 | 0.92 | 15 | 13.80 | |
| Dizdarevic, Mehmedalija | | | 1861 * | BIH | 0.00 | 1 | -0.08 | 15 | -1.20 | | Chew, Jason | | | 1822 | AUS | 0.50 | 1 | 0.40 | 15 | 6.00 | | Hughes, Jack | | | 1710 | AUS | 0.00 | 1 | -0.19 | 15 | -2.85 | | Singh, Surjeet | | | 1782 | AUS | 1.00 | 1 | 0.87 | 15 | 13.05 | | Hain, Anthony | | | 1858 | AUS | 0.00 | 1 | -0.08 | 15 | -1.20 | | * Rating difference of more than 400. Please read more at FIDE Handbook | Rc - average rating of rated opponents, Ro - rating of a player in a tournament, Rp - rating performance of an unrated player, W - points won in a tournament against rated opponents, N - total number of games against rated opponents, Change - change used for calculation according to formula, K - development coefficient, Kchg - rating change of a player calculated as (K * change) | | Canterbury Summer Swiss 2013 | Melbourne | AUS | 2013-12-27 |
Rc | Ro | w | n | change | K | K*chg | Game |
1628 | 1461 | 4.00 | 5 | 2.30 | 15 | 34.50 | |
| Li, Zuhao Luke | f | | 1861 * | NZL | 0.00 | 1 | -0.08 | 15 | -1.20 | | Lu, Lillian | | | 1334 | AUS | 1.00 | 1 | 0.33 | 15 | 4.95 | | Ilic, Nick | | | 1243 | AUS | 1.00 | 1 | 0.22 | 15 | 3.30 | | Szuveges, Narelle | | wm | 1839 | AUS | 1.00 | 1 | 0.91 | 15 | 13.65 | | Chew Lee, Max | | | 1861 * | AUS | 1.00 | 1 | 0.92 | 15 | 13.80 | | * Rating difference of more than 400. Please read more at FIDE Handbook | Rc - average rating of rated opponents, Ro - rating of a player in a tournament, Rp - rating performance of an unrated player, W - points won in a tournament against rated opponents, N - total number of games against rated opponents, Change - change used for calculation according to formula, K - development coefficient, Kchg - rating change of a player calculated as (K * change) | |
|