Unloaded Lower

Pool Deceleration Work

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The art and success of changing directions efficiently in any sport is significantly dependent on the DYNAMIC ECCENTRIC load of the posterior chain. And this load needs to be trained at the Support System chain and the Suspension System chain leading into the trunk.

The base is obviously built in the weight room. But there needs to be a transfer to the field. Hence, the DYNAMIC eccentrics – with all angles and diverging forces. And transferred into all aspects of the stretch-reflex (note the vertical, lateral, and horizontal plyometrics).

Note the forces demonstrated here – vertical to lateral; lateral to vertical; double leg; single leg; lateral to lateral; fwd angle; back angle; 90-deg and 180-deg diverging force; and all AGGRESSIVE horizontal (straight leg rhythms, and the incorporation of the accel bounding).

While this work is absolutely necessary, it’s aggressive. This is why it’s so effective in the pool. The muscle action is high so the Vinnie can be high. But, there is less pounding on the joints. In addition, there is an added effect of lateral power and knee extensor power and hip extensor power driving through the water resistance. Further, note the added challenge of stabilization on some of the diverging force landings – because of the momentum caused by the water.

Explosive Split Cycle Plyometrics

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Explosive Split Cycle Plyometrics

The Keys:
1. Knee Punch out of the water. Taking the back leg from the down lunge position, fully drive through the water resistance in to max hip flexion.

2. Split in to a deep lunge (back knee about 2 inches off the ground), while keeping the trunk tight so from the shoulder to the knee is a straight line.

3. Arm action!

Horizontal Plyometrics

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Horizontal Plyometrics – Overview

The scientific concepts and application of the broad category of Long Response Plyometrics.  Introduction of key concepts of these types of plyometric exercises:  stored elastic energy (specifically in the Gastro-Soleus complex), leading into success of the stretch reflex across this joint (which IS a trainable effect), and the crossed-extensor reflex that will subconsciously occur as the legs action efficiency will be dictated by the efficiency of the arm action (hence, the arms lead the legs).

The Long Response Plyometrics, contrasted to the Vertical Plyometrics in the Vertical Plyometric section, is now featured with the emphasis of:

  • Shorter ground contact
  • More specific
  • Rate of force development

The progressive exercise sequence of overloading these concepts with an Acceleration emphasis with a piston-like action or the Absolute Speed cyclical motion:

  • Acceleration Bound
      • Low/Medium/Full Height
  • Absolute Speed Bound
      • Double leg jump
      • Double leg skip
      • Double leg bound
      • Single leg alternating

CV – Tuff Tread Acceleration Bound Series FULL

OVERSPEED LIGHT PULLEY MACHINE SETUP INSTRUCTIONS

Single Leg Vertical Plyo

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SL Vertical Plyo – Basic

In this video you will see a continuation of Vertical Plyometrics with Single Leg Variations:

  • Overview.  Approach to the physiological adaptation of the Vertical Plyometric Series – Jumps, Skips, and Depth Jumps; but now on ONE LEG in various angles and introduction of power on the edges of the feet.
  • Exercise Database Sequence:
      • SL Linear
      • SL Lateral (Inside Edge & Outside Edge)
      • SL Multidirectional

Hockey Plyometrics

Box Vertical Plyo – Lateral to Crossover; Same Side; Plyo Continous

Power Skating Plyo Series- Advanced

We’ve transitioned from the deceleration and isometric emphasis; into higher loads of reflexive plyometrics. Note the example of the Lateral position to the X-Over position, full Plyo bound, max height (opposite side). Emphasizing the “nose / knee / foot” alignment consistent with all speed skating dry land movement patterns. This is a really good demo for the consistency of the position (especially on the X-Over positions – see the angle of hip horizontal adduction).

Finally, addition of a diverging force adds different stimuli. Here it’s a back Raptor load at the waste. We executed successive sets with lateral and front forces.

Box Vert Plyo – Break Down

Box Vert Plyo – Break Down PT 2

DL Vertical Plyo

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DL Jump/Skip Overview

In this video, you will learn/see:

Understanding the two main broad categories of Plyometrics and their components:

  • Long Response Plyometrics – basic, less specific, longer ground contact, emphasis more on pure power production
  • Short Response Plyometrics – advanced, more specific, shorter ground contact, emphasis more on rate of force development

Approach to the science aspects of the Long Response Plyometrics, and how this very specific form of a stretch reflex can set the base of general power; primarily in the vertical aspect.

Beginning of the database of the Vertical Plyometrics

  • Jumps – arm/hips coordination and synchronization; along with pure power production, high speed eccentric loading, and subsequent deceleration into isometric contraction emphasis around the hips, knees, and ankles
  • Skips – similar physiological adaptation of the Jumps, except now with a series of low-grade plyometric rhythmic hops in between main plyometric actions; ground contact of this main plyometric action is obviously much less that the Jump

DL Depth Jump Series

In this video, you will learn/see:

Scientific breakdown of the culmination of the Vertical Plyometric Series – the Depth Jump.

The ultimate drill in developing the general Power base while still achieving a good emphasis on rate of force development
The important “bridge” in getting the power adaptation necessary for success in the more specific Short Response Plyometrics
Approach to the physiological adaptation of the Vertical Plyometric Series – Jumps, Skips, and Depth Jumps; but now in various angles and introduction of power on the edges of the feet:

Linear
Lateral
Multidirectional