Individual Calculations June 2013 |
|
|
Aditya, Kumar Total change: 32.25 | | |
|
Delhi State Open FIDE Rated Chess Tournament,2013 | New Delhi | IND | 2013-04-20 |
Rc | Ro | w | n | change | K | K*chg | Game |
1700 | 1411 | 3.50 | 7 | 2.33 | 15 | 34.95 | |
| Saksham, Dewan | | | 1811 * | IND | 0.50 | 1 | 0.42 | 15 | 6.30 | | Mayank, Soni | | | 1698 | IND | 0.50 | 1 | 0.34 | 15 | 5.10 | | Sanjay, Gupta | | | 1661 | IND | 1.00 | 1 | 0.81 | 15 | 12.15 | | Modgil, Moninder Singh | | | 1706 | IND | 1.00 | 1 | 0.85 | 15 | 12.75 | | Sarthak, Mahajan | | | 1778 | IND | 0.00 | 1 | -0.10 | 15 | -1.50 | | Sparsh, Bansal | | | 1532 | IND | 0.50 | 1 | 0.16 | 15 | 2.40 | | Harshit, Sharma | | | 1713 | IND | 0.00 | 1 | -0.15 | 15 | -2.25 | | * 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) | | NHPC Fide Rating for school students | Delhi | IND | 2013-05-07 |
Rc | Ro | w | n | change | K | K*chg | Game |
1542 | 1411 | 1.50 | 5 | -0.18 | 15 | -2.70 | |
| Mythireyan, P | | | 1737 | IND | 0.00 | 1 | -0.13 | 15 | -1.95 | | Om, Batra | | | 1598 | IND | 0.00 | 1 | -0.26 | 15 | -3.90 | | Bhavya, Gupta | | | 1095 | IND | 1.00 | 1 | 0.13 | 15 | 1.95 | | Krishnankit, Banerjee | | | 1661 | IND | 0.00 | 1 | -0.19 | 15 | -2.85 | | Vantika, Agrawal | | | 1620 | IND | 0.50 | 1 | 0.27 | 15 | 4.05 | | 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) | |
|