Before the Evolution of Combat, when fighting in the aggressive stance , Strength experience was awarded per hit, where is the amount of damage dealt. Fighting using the controlled stance , however, awards Strength experience per hit, where is the amount of damage dealt. For example, a player who hits a 10 would receive 4 Strength experience when fighting in the aggressive stance and Strength experience when fighting in the controlled stance. The amount of experience received when fighting in the controlled stance may be calculated in the same way that experience awarded to the Constitution skill is calculated.
The FAI is often used as a surrogate for FT, and the FAI correlates well with FT in women but not men . Because T production is regulated by gonadotropin feedback in men, changes in SHBG, which alter FT concentrations, will be compensated by autoregulation of T production but not so in women. In addition, much circulating T in women is derived from the peripheral conversion of adrenal dehydroepiandrosterone and dehydroepiandrosterone sulfate that also is not subject to feedback control. Because SHBG is present in such large excess in women (10–100:1), FT concentrations are driven primarily by SHBG abundance. In addition, T excess in women lowers SHBG concentrations, which raises the FT concentration and contributes to the strong correlation of 1/SHBG with FT. 
The second theory is similar and is known as "evolutionary neuroandrogenic (ENA) theory of male aggression".   Testosterone and other androgens have evolved to masculinize a brain in order to be competitive even to the point of risking harm to the person and others. By doing so, individuals with masculinized brains as a result of pre-natal and adult life testosterone and androgens enhance their resource acquiring abilities in order to survive, attract and copulate with mates as much as possible.  The masculinization of the brain is not just mediated by testosterone levels at the adult stage, but also testosterone exposure in the womb as a fetus. Higher pre-natal testosterone indicated by a low digit ratio as well as adult testosterone levels increased risk of fouls or aggression among male players in a soccer game.  Studies have also found higher pre-natal testosterone or lower digit ratio to be correlated with higher aggression in males.