Weightlifting movements and their derivatives can be programmed effectively by considering their force–velocity characteristics and physiological underpinnings to meet the specific training goals of resistance training phases in accordance with the typical application of periodized training programs.
This excerpt from NSCA’s Essentials of Sport Science briefly explains the force-velocity-power profile and how it can give strength and conditioning coaches a more holistic view of athletes.
Bo Sandoval, Director of Strength and Conditioning for the UFC Performance Institute, walks through weightlifting examples used to elicit changes in the force-velocity curve.
The purpose of this article is to discuss the theory behind the French Contrast Method (FCM), current evidence demonstrating its effectiveness, as well as proper implementation and execution for athletic populations.
CoachesProgram designFrench Contrast MethodPlyometricsPowerVelocityRate of Force Development
This article provides guidance on designing strength and conditioning programs for male collegiate trampolinists by combining the available sport science with practical coaching experience.
CoachesProgram designTesting and EvaluationSport ScienceTrampolinePlyometrics
This article considers some of the main differences between the training of Olympic weightlifters and the use of Olympic weightlifting exercises in strength training for sport.
CoachesExercise TechniqueProgram designOlympic WeightliftingPower SnatchPower CleanDecelerationPlyometricRate of Force Development
The purpose of this article is to present and discuss the phases of the pull that precede the power position, as well as present some suggestions for how to coach these positions.
The purpose of this article is to justify the importance and advantage to properly incorporate upper body power (UBP) training in Mixed Martial Arts (MMA) athletes.
CoachesProgram designTesting and EvaluationMixed Martial ArtsUpper Body PowerVelocityPotentiation