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The major misconception of pitching, that continues to ruin arms, is the belief that velocity comes mainly from the arm. Stop thinking with your arm! This will cause so many problems mechanically and physically your career will eventually come to a halt. You need to beat it into your head everyday that your legs and core throw the ball and the arm follows and guides the pitch. When starting your delivery on the mound your first step should NOT be lift leg so I can break my hands and get my arm moving fast. This is pitching with all your arm. This is only recruiting your arm to handle the workload of the pitch. You must learn to recruit from the major muscle groups in the legs and core, to handle the workload of the pitch. In return this will generate so much more velocity and save your arm from absorbing all of the stress.

Pitching from the bottom or ground up is visualizing your lift leg as a log you are about to role down the hill or mound. Pick it up, feel its weight, hold back your upper body and throw the log down the hill leading with your butt to the target. It is extremely important that you load your weight back while the front leg moves to the target. Notice the picture above of Gagne in this “Load” position. Notice his weight is back, his back leg is sitting and his lift leg is moving to the target. This is the essence of bottom up pitching. Now notice the young man in the picture to the right of Gagne. He is almost at the same moment in the delivery but he is in a different position. His weight is forward, his arm is up and his stride is short. The difference between the two pictures is, once Gagne’s foot lands he can then transfer all the weight that he is loading in the back leg into the pitch. The young man has no weight loaded and is forced to only whip his arm to generate any velocity. The young man is pitching from the top down and he will be one of Dr. Andrews next patience if he does not make the adjustment.

Another sign of pitching from the top down is driving your glove hand to the target. This will also throw your weight forward preventing the “Load.” If you are a pitcher who pitches from the top down then thank God you read this article. You know need to understand what you are doing to cause this and learn to pitch from the bottom up. If you can make this adjustment, you will not only save your career as a pitcher, but you will increase your velocity by about 10-15 mph. The problem is this adjustment isn’t easy! It will not happen over night or within the year. It is a long process of changing muscle memory that you developed when you were very young. This means you will need a coach or video analysis to make this adjustment. You will also need to understand how to finish your delivery from the “Load” position and most important you must work on this adjustment everyday.

Please do not let this article discourage you. You have been given a gift with this knowledge. Most pitchers in high school and even college do not understand this consciously or subconsciously. Therefore this will put you ahead of the game.

To start the analogy we have a car, a hill and a wall. The car is sitting on top of the hill and the wall is built at the bottom. The wall is high enough to just peak over the hood of the car. There is a passenger in the car not wearing a seat belt. To begin, the car starts down the hill at full throttle. The farther it travels, the more speed it gains. It reaches the end of the hill and slams into the wall at full speed. The wall does not break or move. At this point I would like you to really visualize this event. I am sure you have good enough knowledge about classic physics to know what is going to happen to the passenger. Yes, the passenger is propelled through the windshield and flies through the air and lands about 40 feet in front of the car. So, why did this happen? Yes I could throw a bunch of scientific jargon at you but it shouldn’t be this complicated. The passenger flies out of the vehicle after hitting the wall at full speed because it was the only part of the car that wasn’t secured to it. Energy must go somewhere, so when the wall stopped the car, all the momentum transferred to the passenger because it still had the potential to move.

How does this relate to pitching? Good question! The best way for you to understand this comparison is if I describe the correlation. Let’s start with the car. The frame of the car in the analogy of the car crash is the pitchers core. The hill is of course the pitching mound and the wall is when the pitchers front leg lands and stabilizes in his delivery. Now, the front leg is important in this analogy. It is playing the role of the wall. That is no easy role to fill because the wall, in this case, was able to stop the car dead in its tracks. So as the pitchers core travels down the hill, like the car, gains momentum, then the front leg lands and plays the role of the bionic wall. What happens now? Let’s continue to keep this simple. To understand what happens now we must label the last correlation of the car crash analogy. That being the passenger. What is playing the role of the passenger during the pitching delivery? I will tell you! The ball is the passenger. The ball is along for the ride like the passenger and it also is the only part of the ride that isn’t secured to the vehicle or in this case, the pitcher. So, if the front leg does its job of playing the wall, then the ball will be forced to receive all of the momentum generated; in return reaching its top velocity potential.

You may still be a little confused at this point, so to help you pull it all together I will go into more detail about the wall. Let’s bring back up the event of the car crash again. Let’s say the car speeds down the hill and hits the wall but the wall does not hold. It gives away but manages to slow the car some. What happens now to the passenger? The passenger does not fly through the windshield. This occurs because the wall didn’t completely stop the car. It was allowed to continue moving until all the enegry created from the inertia of the car dissipated. Therefore the pasenger was saved because he wasn’t forced to receive all of the momentum from the car. This will be the same case with the ball, if the wall or leg does not stablize completely. This will mean the pitchers front leg will continue to bend instead of hold and the body will not transfer all of the momentum to the ball. For the pitcher to reach his top velocity potential he must stabilize from the front leg all the way up to the chin. The arm and ball should be the only part of the body moving after the chest has extended as far out as it is capable of going. Watch the video above of Edison Volquez performing this almost perfectly. Also view the pic here of Chien-Ming Wang in complete stablization of his front side.