This excerpt from NSCA’s Essentials of Sport Science describes strength as a velocity-dependent concept.

Examine different measures of velocity that can be used in resistance training and understand how each measure may be more applicable to either strength or power exercises. In this session from the NSCA’s 2016 National Conference, Daniel Baker, President of the Australia Strength and Conditioning Association, explains how to use velocity data to monitor changes in strength or power, and how to use velocity scores for readiness/performance monitoring.

This infographic explains how to build a load-velocity profile for velocity-based training (VBT), and is the second of a three part series explaining the theory behind and application of VBT.

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.

This infographic summarizes a study that analyzed performance based on target velocity or coaching cue.

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.

Velocity-based training (VBT) is an increasingly popular programming strategy used by strength and conditioning professionals to develop their athlete’s ability to express force rapidly. To implement the varying forms of VBT effectively within their training regimes, strength and conditioning professionals need to understand the strengths and weaknesses of strategies, such as predicting 1 repetition maximum using the load-velocity profile, modulating training loads using the load-velocity profile, and controlling training volume using the magnitude of velocity-loss. The aim of this review was to highlight these strengths and weaknesses and then provide practical examples of when each programming strategy may be most effectively implemented.

Velocity-based training (VBT) has been generating a lot of buzz lately. In this session from the NSCA’s 2017 TSAC Annual Training, Dr. Bryan Mann explains how and why VBT works, how different devices work, and how to account for them in training.

Major League Assistant Strength and Conditioning Coach for the Texas Rangers, Eric McMahon, describes how he utilizes velocity-based training for professional baseball players and the benefits this technology brings to the players in this session from the NSCA’s 2019 Coaches Conference.

In this lecture from the NSCA's 2014 Coaches Conference, Dr. Bryan Mann addresses velocity-based training (VBT) in sports. Dr. Mann defines VBT as "the use of various devices that measure displacement and time" as he describes each device and its ability.