In part 1 of this two-part review, we addressed the recent criticisms of the use of terms such as power, rate of force development, and explosiveness, over impulse. These terms were distinguished mechanically and conceptually for the benefit of the scientist and coach. In part 2, we use the key mechanical parameters underpinning power development and its relationship to the force-time characteristics and force-velocity profile of sporting movements, to evidence the planning of training drills, and assist the strength and conditioning coach in devising periodized training programs
The evaluation of rate of force development during rapid contractions has recently become quite popu...
[EN] In combat sports, the specificity of the training requires that the athlete improve...
The quantification of mechanical power can provide valuable insight into athlete performance because...
This review will revisit practitioner understanding of the development of power, before outlining so...
Developing an athlete’s ability to generate power is a key goal of periodisation. This development c...
Power (along with Impulse) is arguably the most import characteristic for an athlete to develop. Pow...
Power-generating capacity should be a primary training outcome for football athletes. The ability to...
Over the last 30 years, strength and power training has been a major issue for, coaches, athletes an...
Over the last 30 years, strength and power training has been a major issue for, coaches, athletes an...
High velocity of takeoff, release or impact is the primary outcome dictating performance in a wide r...
Power is regarded as a major attribute for most team sport players, therefore it’s advancement shoul...
Power is the most desired physical quality for a number of sports because it entails both force (str...
Explosive muscular contractions are fundamental to sports activities such as sprinting, jumping or t...
This series of reviews focuses on the most important neuromuscular function in many sport performanc...
Athletic performance can be altered via various training regimens and an important component to incr...
The evaluation of rate of force development during rapid contractions has recently become quite popu...
[EN] In combat sports, the specificity of the training requires that the athlete improve...
The quantification of mechanical power can provide valuable insight into athlete performance because...
This review will revisit practitioner understanding of the development of power, before outlining so...
Developing an athlete’s ability to generate power is a key goal of periodisation. This development c...
Power (along with Impulse) is arguably the most import characteristic for an athlete to develop. Pow...
Power-generating capacity should be a primary training outcome for football athletes. The ability to...
Over the last 30 years, strength and power training has been a major issue for, coaches, athletes an...
Over the last 30 years, strength and power training has been a major issue for, coaches, athletes an...
High velocity of takeoff, release or impact is the primary outcome dictating performance in a wide r...
Power is regarded as a major attribute for most team sport players, therefore it’s advancement shoul...
Power is the most desired physical quality for a number of sports because it entails both force (str...
Explosive muscular contractions are fundamental to sports activities such as sprinting, jumping or t...
This series of reviews focuses on the most important neuromuscular function in many sport performanc...
Athletic performance can be altered via various training regimens and an important component to incr...
The evaluation of rate of force development during rapid contractions has recently become quite popu...
[EN] In combat sports, the specificity of the training requires that the athlete improve...
The quantification of mechanical power can provide valuable insight into athlete performance because...