The problem with over coaching front foot strike is that all of the power production that must occur before front foot strike is forgotten. This will develop an accurate pitcher but if the pitcher struggles with power issues then he will be a low velocity accurate pitcher with a higher chance of having arm problems. Unfortunately, this is not going to get him to the next level.

The key to coaching front foot strike is to first coach the power stride before you move into front foot strike. If the pitcher has done his job and conquered his power issues and has developed an explosive stride then front foot strike becomes critical in converting this power into torque.

How to Convert Stride Power to Torque at Front Foot Strike?

This understanding of stride power converting to core torque through front foot strike was developed here at TopVelocity.net first. This is the foundation of 3X Pitching. Before 3X Pitching was developed here, no other source had defined why harder throwers use longer faster strides to throw harder. The only source to come close to this discovery was the National Pitching Association in their 2005-2006 Velocity Study where they proved that more hip to shoulder separation creates more throwing velocity. The study acknowledges the importance of the stride power but does not define the conversion of this power into hip to shoulder separation and then into the velocity of the ball.

The Holy Grail to Power Pitching

This description of how power from the stride converts to hip to shoulder separation is the Holy Grail of the power pitcher. The better you are at converting stride power to core torque at front foot strike, the better your velocity and precision, therefore the more dominate you are as a pitcher.

This conversion occurs more efficiently and effectively when triple extension (3X) is achieved before front foot strike. This means the ankle, knee and hip flexor are all fully extended, in an explosive manner, before front foot strike occurs. This not only builds stride power but it also opens the hips to the target before the front foot lands. When the front foot lands it stabilizes and converts the 3X power, using ground reaction forces, back up the landing leg into the front hip. 3X power and stabilization of the front leg at front foot strike creates explosive hip rotation. If the shoulders stay in-line with the target during the stride then this explosive hip rotation will move the hips away from the shoulders before the shoulders have time to react and launch. This separation of the hips to shoulders creates torque in the core which multiples the force and launches the shoulders in the same direction towards the target. This process continues to activate and multiple force up the upper kinetic chain, until the ball is released.

How Placement of the Front Foot can Effect Velocity and Precission?

Notice the picture here of Tim Lincecum. He is not landing on a straight line towards the target (see original foot position). This is because for his front leg to stabilize and promote optimal hip rotation at front foot strike, his front foot must land on his center of gravity. If his foot had landed in a straight line towards his target then he would not have established good balance at front foot strike which good balance leads to good stabilization. He would also not have allowed his hips the opportunity to open completely towards the target. The front foot landing on line with his center of gravity is both critical for power conversion and complete hip rotation.

Tim Lincecum is not the only pitcher to do this in his delivery. Notice the other examples on this page of power pitchers landing with their center of gravity not always on a straight line.

* Important Notice *

Just because you land inside the straight line towards the target with your landing leg foot doesn’t mean that you are landing with your center of gravity. The only way to check this is using video analysis and filming the front side of your delivery.

You should only make these adjustments with your front foot strike once you have developed good stride power and distance using the 3X Pitching Velocity program and you have determined your center of gravity at front foot strike. Making these adjustments before developing good stride power and distance and achieving optimal hip to shoulder separation at front foot strike will be putting the cart before the horse and the result may only be accuracy without velocity.

If you have been following this site then you know that I am totally against this approach to pitching. Here is a quick summary of why I am against this type of training. The American Sports Medicine Institute (ASMI) proves in their latest case study here that this type of long toss creates elbow varus torque in the arm and uses different mechanics than those used on the mound. In defence, Alan Jaeger says that the athletics of the 300 foot throw when restricted to 60 feet, through his “Pull Down” phase, forces the pitcher to be more open and explosive. The reason that the revolutionary approach to pitching velocity, 3X Pitching, is far superior to this extreme long toss approach is because the 3X approach defines each component of its 3X Pitching Mechanics and uses drills and a complete training program to train the pitcher to implement these mechanics into their delivery, without abusing the arm. Alan Jaeger’s program never seems to mention anything about good mechanics. This is a major reason why I am against his extreme long toss and speak out against it, because if you do not have good mechanics when building your throws to 300 feet, you are extremely vulnerable to injury as proven in the ASMI case study and the reason why ASMI advises against this type of training. Another big reason is the fact that what he is trying to teach athletically, through his extreme long toss program, can be done without putting the pitcher through this type of rotator cuff and elbow abuse.

If Alan Jaeger understood the mechanics of this own training then he would learn that throwing long toss at extreme distances trains the pitcher to build elastic energy early in the delivery. This means it forces the pitcher to get good external rotation in the arm, along with building elastic energy through the chest cavity and hip flexors early. This occurs because the trajectory of release is a lot higher than throwing off of the mound, which forces the pitcher to throw the ball behind the front leg. Alan Jaeger then attempts to correct this mechanical flaw by taking these mechanics through his “Pull Down” phase, down to 60 feet, which forces the pitcher to finish over the front leg. This would be a good approach if he used good mechanics to keep pitchers safe from this extreme training. Just like it is critical to have good lifting mechanics when training to get bigger, stronger and faster but the main reason that 3X Pitching is a far superior approach to pitching velocity is because it trains the pitcher to do the same as an extreme long toss program without putting the abuse on the arm. This is why 3X Pitching wins hands down!

In the 3X Pitching Velocity Program the medicine ball drills are training the pitcher to develop elastic energy early in the delivery as effectively as extreme long toss but you are only throwing the 2 lb med ball 40 feet while focusing to hit all of the 3X Mechanics. You then take these mechanics into the target throws with the 5 ounce baseball. This is why 3X Pitching is so effective in increasing velocity and it is injury free. With Alan Jaeger’s extreme long toss program, I know he can not say the same!

I do have to say that I have never used the “Speed Chains,” so I am not talking from experience. If someone would like to send me one for a complete review, I would be glad to do it. I feel that my opinion would not change much but I could be wrong. What I find to be the major concern with using the “Speed Chains” as an alternative to a complete training program, is that these exercises do not incorporate the lower kinetic chain as effectively as the upper kinetic chain. This creates muscle memory that works against total body mechanics like the 3X Pitching Velocity Mechanics. These mechanics start with ground reaction forces and then converts that power or energy into torque and then the velocity of the pitch. Based on this understanding these “Speed Chains” are not training the central nervous system to function in a ground up explosive manner. I believe that those who have purchased this gimmick, if they had a complete understand of 3X Pitching Velocity Mechanics before purchasing, would have found very little use for this product.

Those in defense of this product would probably say that it trains speed better than other training exercise because how the chains increase resistance during the explosive movement, but most case studies on velocity specificity state that heavy load training at high or low speeds are more effective because of the intent to move quickly than actually moving quickly. This is a highly debated subject and I welcome those who would like to debate it but I argue on the side of heavy load training. I believe you must first train your motor skills with quick sport specific movements but then you must finish training explosive power through heavy loads. Putting quick upper kinetic chain movements with increased low load resistance is not the better alternative. This is why I do not believe “Speed Chains” help baseball pitchers as effectively as a complete training program.

This Velocity Quick Tip focuses on the lift leg and how it can work against you when trying to build core torque. Core Torque is critical to reaching your top velocity. This video will show you how to use the lift leg to help you generate more core torque or hip to shoulder separation.

To learn more about the problems and benefits of the lift leg read the article Lift for Show Load for Doe.

These tips all are covered in depth in the Ace Pitcher Handbook and the 3X Velocity Camp Instruction Videos. If you are looking for velocity drills to help you become more total body in your pitching mechanics then you must consider purchasing this information.

If you have any questions please post your comments below.

This is the second velocity quick tip of the velocity quick tip series.

This quick tip covers the “Tilt” and how it is a key component to pitchers like Tim Lincecum’s total body mechanics. This tip will help support good hip to shoulder separation. It uses gravity to build more core torque at front foot strike. It is important though that you maintain balance when implementing the “Tilt” into your delivery.

Here is the article I wrote on Tim Lincecum and the Tilt to learn more about the effects of this key component of velocity.

These tips all are covered in depth in the Ace Pitcher Handbook and the 3X Velocity Camp Instruction Videos. If you are looking for velocity drills to help you become more total body in your pitching mechanics then you must consider purchasing this information.

If you have any questions please post your comments below.

The drill below should be performed 2 – 3 days a week, for at least 3 – 4 months. The drill should also be performed after completing the “Flexibility Training” portion of the Fusion System which can be found in the Ace Pitcher Handbook. You can also find more drills in the handbook. Try to push each drill to muscle fatigue, if possible.What you will need to perform the drill is your glove and some resistance tubing. All of these products can be purchased at the Velocity Store.

The purpose of this drill is to enforce the “Separation” position. To perform this drill you need a resistance band or tubing. Connect the band to a fence or have someone hold the band behind you.

Instructions:

Start in the “Separation” position, with the band held with your throwing arm. Arm some what relaxed and close to your body. Your glove hand is turned over and you are looking down your elbow. Both your feet are facing the target which opens your hips. Finally make sure your back shoulder is all the way behind you to help build more torque in your core.

When ready, turn over and tuck your glove hand and then push your belly and chest to your front knee, allowing the band to pull your arm back behind your head. Make sure your hips are positioned under your chest. You are now in the “Pull.” Perform pic #2 from the previous drill before continuing down to pic #3 on this drill.

Continue to stabilize your landing leg, knee, hip and chest while driving your chest out over your front foot. Once your chest has hit the wall, finish the pitch with your fingers on top of the ball and your hand 6 inches in front of foot. Make sure your elbow pulls through just above your throwing shoulder.

* Remember after creating torque in your core and your shoulders have opened to the target, velocity is based on how fast you can transfer your weight to your release point. So perform this drill with explosive power.

Purchase the Ace Pitcher Handbook for more drills and to learn the 6 Components of Pitching.

Speed Mechanics:

Speed Mechanics is the act of accelerating the body, through the delivery, to produce more speed or velocity.

The reason I do not call it Velocity Mechanics is because when we think of Velocity, we think of throwing and when we think of throwing, we think of rotational forces. Speed Mechanics makes us think of momentum which is the point of the term.

To better understand Speed Mechanics you must understand momentum. The definition of Momentum, by Google, is the product of a body’s mass and its velocity. It is essential that to generate more speed or velocity you must continue accelerating your bodies momentum. This is where most young pitchers fail. Check your own delivery to see if your bodies momentum is accelerating. The most important time to check for acceleration is after your front foot lands. This is when low velocity pitchers slow down their bodies momentum and rotational forces take over. If both momentum and rotational torque do not meet at this point and continue increasing force to the ball, then velocity suffers.

Notice in the animated sequence of Tim Lincecum that when his front foot lands his head stays up above his shoulders and his momentum transfers from his legs into his chest. You can tell his bodies momentum is continuing to accelerate because his weight is still moving forward after front foot strike. There are no forces rotating down or across his body at this point. We can also tell his weight is moving forward because when he releases the pitch his back leg is flying forward over his head. This doesn’t mean after you release the ball to kick your leg over your head. This would be like using your hands to spin the wheels faster to speed up the car, just hit the gas and use the engine. Your engine when pitching is the muscles in your legs.

I originally brought the term Triple Extension from the Olympic lifting world into the pitching world to explain the mechanics of pitchers legs. Triple extension is the extension of the ankle joint, knee joint and hip flexor. This is anytime we push off of the ground. Like when we pitch or sprint. The reason for the picture above of Tim Lincecum and Jeremy Wariner, the USA Olympic sprinter, is to help illustrate Speed Mechanics. If it is the act of accelerating your bodies momentum to increase your speed or velocity, then this means as pitchers we should move like sprinters. Consider your stride as no different than a sprinters stride when he is up and running for the finish line. Both the pitcher and the sprinter are using the same tools to produce a similar outcome. The only difference is the pitcher is transferring his bodies speed into the ball. This is why after the pitcher’s stride he stops and the ball continues but after a sprinters stride, he continues and strides again. So just like the sprinter, if a pitcher wants to accelerate his bodies momentum to increase his speed, he must triple extend his back leg harder and faster.

The negative behind Speed Mechanics is that it is an advanced level of pitching and trying to learn this as a beginner could cause serious problems to your delivery. This is not for young pitchers or even older pitchers, it is for experienced pitchers who have been sitting at a plateau on their pitch velocity for a few years.  The reason for this is because learning Speed Mechanics before learning momentum transfer and hip to shoulder separation, is like learning how to pull the trigger on a double barreled shotgun before being taught how to hold and aim it. This means your delivery will be a train wreck if you do not learn momentum transfer before Speed Mechanics. So if you are still learning how to transfer your momentum into the ball efficiently and effectively then bookmark this article and come back to it later. It might not be valuable to you now but when you are ready for it, learning Speed Mechanics may give you those few miles per hour to get you over the 90mph mark. In the meantime, you should always train to develop more explosive power in your body.

Tim has an “Over the top” release point and Randy has a “Sidearm” release point. I am not saying that every pitcher should throw the ball with a higher release point the shorter they are because there are benefits with all arm angles. What I am saying is a higher release point, using total body mechanics, will generate more core torque and in return increase velocity.

Now why would a higher release point generate more velocity?

This is because of the tilting of the body over the landing leg to allow the arm to extend up over the head at release. This tilting, shown in the pictures of Tim Lincecum in this article, works with gravity to add more weight to the back shoulder at the component of “Separation,” as listed in the Ace Pitcher Handbook, and also illustrated perfectly in the picture of Tim above. Just a small amount of extra weight applied to the back shoulder at “Separation” and “Triple Extension” of the back leg, will create optimal core torque. It is like someone pulling your shoulders back after your back leg drives and just before your shoulders fire to the target. Notice in the picture of Randy Johnson, his weight is balanced over his entire body more than Tim’s, therefore Randy’s core torque is minimal. Another indication that Randy does not have optimal core torque is in his back foot and hip. They are both facing first base in comparison to Tim’s, who is facing home plate. This is because Randy’s weight is leaning more towards first base, which is pushing his hips back towards third base, instead of giving them the freedom to fire with his back leg, open to the target, like in the picture of Tim above.

At this point in the article please DO NOT run outside and start pitching with your head hanging way over your landing leg side because the head is not the focus of the “Tilt.” The key factor in creating the “Tilt” is the position of the chest. The chest must be centered and balanced perfectly over the landing leg and as the arm begins to extend out and up to release the ball, the chest must position itself farther away from the release point to balance this position. This is why Tim’s head moves more to his glove side the closer he gets to his release point. This is where balance is critical because anything more to the right or left initially, is too much and will effect velocity and accuracy.

Another benefit of the “Tilt,” is it helps prevent a shoulder impingement because the glove shoulder will adduct lower and the throwing shoulder will abduct higher at release, removing pressure created by the acromion impinging the rotator cuff.

Stodden DF, Fleisig GS, McLean SP, Lyman SL, Andrews JR. Relationship of pelvis and upper torso kinematics to pitched baseball velocity. Journal of Applied Biomechanics 17(2):164-172, 2001.

Matsuo T, Escamilla RF, Fleisig GS, Barrentine SW, Andrews JF. Comparison of kinematic and temporal parameters between different pitch velocity groups. Journal of Applied Biomechanics 17(1): 1-13, 2001.

Stodden, DF, Fleisig, GS, McLean, SP, Andrews, JR. Relationship of Biomechanical Factors to Basebal Pitching Velocity: Within Pitcher Variation. Journal of Applied Biomechanics 21(1): 44-56, 2005

Methods

In three published studies, Dr. Glenn Fleisig and Dr. James R. Andrews from ASMI worked with other researchers in studying many of the parameters that affect baseball pitch velocity. Two of the studies looked between different pitchers and one study looked at variations within each pitcher. Motions during delivery were analyzed using a high speed (200 frames per second) infrared three-dimensional motion analysis system.

Results

In the study by Matsuo and others, pitchers with higher ball velocity were compared with pitchers with lower ball velocity. Four significant differences were found between these two groups. Compared to the low ball velocity group, the higher ball velocity pitchers demonstrated less lead knee flexion velocity after front foot contact and greater lead knee extension velocity at the time of ball release. Extending the lead knee in this manner may provide stabilization allowing better energy transfer from the trunk to the throwing arm, and could be a critical factor in pitch velocity. Maximum shoulder external rotation and forward trunk tilt at ball release were also greater in the higher velocity group. Greater shoulder external rotation causes a stretch of the internal rotators allowing energy to be stored in these muscles, and creating greater internal rotation during the arm acceleration phase.

Two variations were found in the timing of events. Maximum elbow extension angular velocity and maximum shoulder internal rotation angular velocity occurred earlier in the motion of higher velocity pitchers. The maximum shoulder internal rotation angular velocity also occurred closer to the moment of ball release in the higher velocity pitchers. This optimal timing may aid in generating higher velocity pitches.

Another finding of interest is that early in the pitching motion, the two groups were dissimilar in the timing of their movements, while their later movement timing was much more similar. This implies that early trunk and torso movements are more varied among pitchers than late arm movements.

In the first study by Stodden and others (2001), pelvis and upper torso variables were studied in 19 elite baseball pitchers. The study found that when the arm was completely cocked back (that is, maximum shoulder external rotation, or “MER”), more “open” pelvis and upper torso orientation correlated with increased ball velocity. More open pelvis angle at the time of ball release (REL) also correlated with increased pitch velocity increased. Additionally, pelvis angular velocity from front foot contact to MER, and upper torso angular velocity from MER to REL increased with increased velocity.

The data indicate that a pitcher who is able to position himself properly, and rotate his pelvis and upper torso more quickly is able to generate greater momentum. Theoretically, this increase in momentum leads to greater velocity of the throwing arm and thus greater pitch velocity.

The most recent study by Stodden and others (2005) showed that for a given pitcher, increased elbow flexion torque, shoulder proximal force and elbow proximal force produced greater ball velocity. In addition, the maximum shoulder horizontal adduction occurred later and maximum shoulder internal rotation occurred earlier at greater ball velocities. Higher ball velocity also resulted in decreased shoulder horizontal adduction at foot contact, decreased shoulder abduction during acceleration, and increased trunk tilt forward at ball release.

Conclusion

A pitcher with increased shoulder external rotation, faster pelvis and upper trunk rotation, and greater front knee stabilization and extension will throw with greater ball velocity. Improved timing to maximize arm velocity closer to the time of ball release will also help ball velocity. Increased torque and force produced at both the shoulder and elbow will also lead to greater ball velocity.

Copyright © 2000, American Sports Medicine Institute
December 18, 2007

http://www.asmi.org/asmiweb/research/usedarticles/highlowpitches.htm

During the prime of the likes of Nolan Ryan, the popular way of generating more momentum back then was the “Stand Tall and Fall” style developed by Nolan Ryan and his pitching coach Tom House, who may have coined the term. This proceeded the popular style of “Drop and Drive” used by the great Tom Seaver. These two styles of pitching are still used today. What is changing is pitching mechanics are evolving from an art form into the world of science.

Instead of hearing terms like “Stand Tall and Fall” or “Drop and Drive,” we are now hearing terms like “Core Torque,” “Triple Extension” or “Scap Loading.” What we are learning is the more science we can put into pitching, the more benchmarks we have to help pitchers make their improvements. If pitching mechanics are only seen as an art form, then they are based on opinion, which has been the case for some time now. When pitching mechanics are seen as a science then through analysis pitching mechanics must meet certain benchmarks to be labeled efficient and effective.

What we have learned from these two styles, “Stand Tall and Fall” and “Drop and Drive,” is more momentum equals more velocity. What we know today is that digital science has proven that momentum is only effective if it transfers from the lower half to the upper half of the body before it can move into the ball at release. This is the importance of “Separation.” “Separation” is when the front leg lands and the back leg is extended, the back hip is around and the back shoulder and body weight is still back. Notice the picture of Tim Lincecum above in this position. You can develop all the momentum in the world with a Nolan Ryan leg lift or a Tim Lincecum jump off the mound but if you do not let that momentum travel up your body into the ball with proper “Separation” then this means you will be stuck with just your arm to generate the velocity of the pitch.

I like to use the analogy of a moving car. Imagine a car traveling at 100 mph. The drivers side door is closed but it isn’t closed all the way. All of a sudden the driver slams on the brakes and stops the car in its tracks. What would happen to the door? It would fly open because once the momentum of the car is stopped by the brakes, the momentum moves into anything that is not secured down. The door was not secured down, so it picked up the momentum and flew open. This is exactly how momentum must travel through a pitchers body. To transition from the moving car analogy into the delivery of a pitcher we could say the car is the legs and core of the pitcher and the door is the shoulders and arms. Once the pitcher puts on the brakes with his front leg during front foot strike and the shoulders are closed with weight back, then the momentum will travel into the shoulders and arms driving them open towards the front knee. If the front leg continues to stabilize, the momentum will jump into the ball once the shoulders and arms cannot travel any farther.

This analogy makes it sound simple but it is not because there is a sequence of rotational pivots that must rotate perfectly in order for the ball to reach your potential velocity. To learn more about these pivots read Pitching-torque-and-the-3-pivots. It is also a major feat to train your muscles to move your “car” at speeds that cannot be seen by the human eye but I believe it is possible and so should you. Purchase the Ace Pitcher Handbook for a complete training program to help you grow bigger, stronger, faster.