Read publications on rowing and erging:
{color:#000000}{*}*1. Modelling the Rowing Stroke in Racing Shells{*}{color}
{color:#000000}Maurice N. Brearley, Neville J. de Mestre and Donald R. Watson{color}
{color:#000000}{??}The Mathematical Gazette{??}{color}{color:#000000} , Vol. 82, No. 495 (Nov., 1998), pp. 389-404{color}
{color:#000000}Published by: {color}[The Mathematical Association|http://www.jstor.org/action/showPublisher?publisherCode=mathas]
{color:#000000}Article Stable URL:{color} {color:#000000}[http://www.jstor.org/stable/3619885]{color}
* The water drag force {latex}\large $D = a + bv + v^2${latex}, where {latex}\large $v$ {latex} is the velocity of the racing scull, and {latex}\large $a, b,$ and $c${latex} are constants that can be obtained through regression analysis from rowing data.
2. {color:#000000}Kleshnev, Valery. "{color}{color:#000000}{*}Rowing Biomechanics{*}{color}{color:#000000}." {color}{color:#000000}{_}BioRow{_}{color}{color:#000000}. N.p., 2006. Web. 7 June 2013. <{color}{color:#000000}[http://biorow.org/publ/2006_rowing_biomechanics/1-1-0-20]{color}{color:#000000}>.{color}
* {color:#000000}There are four major categories of rowing styles, each defined by whether they emphasize the trunk or the legs, and if the trunks and legs extend simultaneously or consequently.{color} | 