Then it depends on each person. Just to share an interesting fact: I almost never feel muscle pains. That is, I feel that normal ache during the sets with freeweights and when reaching failure I feel the muscles burn. I usually do all the sets until failure, but while a friend next day cannot move his worked out muscles, I feel absolutely nothing. It is as if I had not done the workout the day before. I think this has to do with metabolism. John, thank you for the insight. This is among the best websites on the subject. Really good technical stuff.
Every ingredient has been tried and tested under an array of real world physical stresses and environments from the weight room to the athletic field. Kris Gethin has tested and analyzed every supplement under multiple conditions, strategic dosages, and many combinations. He put his body through the extreme edges of endurance while preparing for a triathlon over a four-month period. Once completed, he again broke physical boundaries by pushing his body through the intense environment of a 12-Week Muscle-Building Plan that was documented daily by . The results of both were astounding.
The efficiency of human muscle has been measured (in the context of rowing and cycling ) at 18% to 26%. The efficiency is defined as the ratio of mechanical work output to the total metabolic cost, as can be calculated from oxygen consumption. This low efficiency is the result of about 40% efficiency of generating ATP from food energy , losses in converting energy from ATP into mechanical work inside the muscle, and mechanical losses inside the body. The latter two losses are dependent on the type of exercise and the type of muscle fibers being used (fast-twitch or slow-twitch). For an overall efficiency of 20 percent, one watt of mechanical power is equivalent to kcal per hour. For example, one manufacturer of rowing equipment calibrates its rowing ergometer to count burned calories as equal to four times the actual mechanical work, plus 300 kcal per hour,  this amounts to about 20 percent efficiency at 250 watts of mechanical output. The mechanical energy output of a cyclic contraction can depend upon many factors, including activation timing, muscle strain trajectory, and rates of force rise & decay. These can be synthesized experimentally using work loop analysis .