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How Your Central Hitting “Operating System” May Be Causing You To Lose Out On Scoring More Runs

How To Maximize A Hitter's Contribution To Run Scoring Process  

Photo courtesy: MopUpDuty.com

Recently, I had a conversation with a coach on Facebook who thought the following quote from Josh Donaldson was “horrible advice”:

“If you’re 10-years-old and your coach tells you to get on top of the ball…tell him NO.”

I’m not getting into the positive or negative of Donaldson’s statement, but the coach’s responses that followed his “horrible advice” comment got me thinking.  Come to find out, the loud and clear message was this coach despises when hitters strikeout. Often referring to this offensive outcome as “disgusting”.  What was interesting was this one principle was central to how and what he teaches his hitters.

So I wanted to do a hitting “operating system” thought experiment.  In reading what follows, please keep in mind what the main objective to offense is, according to FanGraphs.com

“In baseball [or softball], we care about run scoring (and prevention) and so when looking at offensive statistics, we want to find statistics that tell you something about how much a player contributes to the run scoring process…again, we care about a player’s contribution to run scoring and if you treat everything equally you’re not getting a very accurate measure of those contributions.” 

In this thought experiment, we’ll discuss…as a hitting instructor, what would happen if:

  • The Time To Impact Metric was Central to the “Operating System”?
  • Minimizing a Hitter’s Strikeouts were Central to the “Operating System”?
  • Maximizing Batting Average were Central to the “Operating System”? And,
  • Maximizing OPS were Central to the “Operating System”?

Now, that being said…as a hitting instructor, what would happen if…

The Time To Impact Metric was Central to the “Operating System”? 

If you’re new to this term, here’s the definition of Time To Impact according to Zepp:

“TIME TO IMPACT is the amount of time (in seconds) from the start of the downswing until impact of the bat with the ball. The closer to ZERO your swing is, the quicker your bat is to the ball. The faster the time to impact, the longer the hitter can wait to start the swing. Time to Impact also measures how short a player’s swing is. Time to Impact measures their coordination of both their hand and the bat barrel to maximize swing efficiency to the ball.”

CLICK HERE for amateur, High School, and Pro ranges for both baseball and softball.  What would be the top 2-3 priority hitting concepts guided by this principle?

  1. Point-A to B barrel path (shortest distance between two points). Default hitting strategy would be “Knob to the ball”.  “Swing down”. “Barrel above the hands”.
  2. Most likely using more linear elements in the swing for both upper and lower half (i.e. ‘showing numbers’ will be a no-no).  Maybe similar to a Charlie Lau style of hitting.
  3. Minimalist view of the swing…wide feet, no stride, minimal hand and head movement, etc.  May not believe a hitter can train timing, so the view is that it’s all about bettering the hitter’s reaction time.

Look, there’s a healthy range for Time To Impact, not taking too long, and not being so quick the barrel is not in the impact zone long enough.  You can see that range in the previous Zepp link.  Remember, we want to formulate hitting principles that encourage how to maximize a player’s contribution to the run scoring process 

Moving on,

As a hitting instructor, what would happen if…

Minimizing a Hitter’s Strikeouts were Central to the “Operating System”? 

What if you despised hitters striking out so much, you often referred to this outcome as “disgusting”, like our coaching friend above.  What would be the top 2-3 priority concepts guided by this principle?

  • Protecting hitters from swing and misses at all cost.  Very defensive just make contact swings, especially with 2-strikes.  May subscribe to barrel on plane of pitch early and stay on plane longer.  Less margin for error.
  • Believes in hitting ball hard and on a line.  However, low liners and ground-balls are preferred, especially with 2-strikes.  Don’t care as much about extra base hits, doubles maybe, but not homers.  They aren’t worth the risk.  Swings taught at the advent of astro turf fit this type of hitting perfectly.  Hard and on the ground.
  • Mechanics may look like: wide no-stride feet, bug squishing, minimal head movement from start of swing to finish, choking up (especially with two strikes).  Very defensive type of swing.  On board with boosting Ball Exit Speeds, but will not agree with optimizing Launch Angles.  Besides hitter strikeouts, this coach absolutely hates getting the ball in the air (too much of an out risk for them), unless it’s a low level line drive.  High batting average and low strikeouts are very important to this coach.

Listen, if this is you, I’d highly advise checking out this VERY popular post titled, “The UGLY Truth About Hitting Ground Balls”.  I’m not going into every argument here, but the math and geometry don’t lie in demonstrating ground-balls are gross.  The main reasons are:

  1. Ask any pitcher, and most (if not all) will tell you they’re taught to keep the ball down in the zone, to get the ground-ball.  So, if the default strategy – or safety net to the line-drive – is to hit ground-balls, then you’re teaching hitters to do what pitchers want them to do.
  2. Because of reason #1, there are 5 fielders on the infield (yes, the pitcher is considered a fielder) with less space to cover.  There are only 3 outfielders with A LOT of space to cover.  And lastly,
  3. Most double plays are turned on the infield (probably THE WORST hitting outcome in the sport), and if you’re pinning hopes and dreams on an infielder making an error or ball taking a weird bounce, then you’re focusing on things you can’t control.  High level coaches and players don’t think that way.  WHY? Because it’s silly.

Again, we want to formulate hitting principles that encourage how to maximize a player’s contribution to the run scoring process.  A defensive swing doesn’t do this. 

Next, as a hitting instructor, what would happen if…

 

Maximizing Batting Average were Central to the “Operating System”?

In Golf, precision is key.  The least strokes possible.  Being able to control the club head has a lot of value because one small deviation at impact is exponentially compounded hundreds of yards from the tee box.  The last hitter to hit .400 was Ted Williams in 1941.  Tony Gwynn came close in the strike shortened year of 1994, hitting .394, and hitting around .370 in three separate full seasons.  And Gwynn had a mere fraction of the power Williams did.

Before I get to what a hitting coach would focus on here, I wanted to address the elephant in the room.  In the day and age of Sabermetrics, Batting Average isn’t a useful statistic in deciding a player’s value.  In a FanGraphs post titled, “Stats to Avoid: Batting Average”, they put forth two reasons to avoid looking at BA as a useful metric:

  1. “Batting average ignores a segment of offensive actions just because they aren’t “hits,” and 100 years ago, someone decided a hit and a walk were fundamentally different.”  And,
  2. “The second major flaw is that batting average treats every hit equally even though certain hits are more valuable than others. Batting average treats a single and a double like the same thing, even though a hitter who only hit doubles would help his team score a lot more runs than a hitter who only hit singles.” 

That being said, maybe a better stat would be Batting Average on Balls in Play (BABIP). Not the best, but better than BA.  FanGraphs.com defines BABIP as:

“Batting Average on Balls In Play (BABIP) measures how often a ball in play goes for a hit. A ball is “in play” when the plate appearance ends in something other than a strikeout, walk, hit batter, catcher’s interference, sacrifice bunt, or home run.”

Okay, so what would be the top 2-3 priority concepts guided by this principle?

  • Getting on the plane of the pitch early with the barrel, and maximizing that time.
  • Place a high emphasis on barrel control, both horizontally (across the field) and vertically (optimizing Launch Angles).  The best hitters in the world can put the ball where they want, when they want, during batting practice.
  • This Joey Votto interview post describes this approach, it’s titled, “Joey Votto: Why Coaches SHOULD NOT Be Obsessed With Launch Angles”

I LOVE this approach, and I feel coaches have done a poor job of training their hitters in it in the past (including me).  Teaching hitters to hit the ball where they want, when they want.  Why can’t we have hitters in High School batting .600 to .800?  Or Little Leaguers hitting .880?  I know it can be done because I did it when I was 12yo, in addition to hitting 30+ homers.  Using Batting Average (BA), or better yet Batting Average on Balls in Play (BABIP), is a great start to encourage how to maximize a player’s contribution to the run scoring process.

The challenge I have with it though, neither of the BA or BABIP metrics take walks and/or homers into account.  Remember “contribute to run scoring process”.  Which leads me to, as a hitting instructor, what would happen if…  

 

Maximizing OPS were Central to the “Operating System”?

Have you read the book MoneyBall by Michael Lewis, or watched the movie with Brad Pitt?  If you haven’t…THEN WHAT’S WRONG WITH YOU!!!!  lol, kidding.  OPS stands for On-Base Percentage PLUS Slugging Percentage.  There are better metrics, but this is a good one to start with if this is new to you.  FanGraphs.com defines it as:

“On-base Plus Slugging (OPS) is exactly what it sounds like: the sum of a player’s on-base percentage and their slugging percentage. Many sabermetricians don’t like OPS because it treats OBP as equal in value with SLG, while OBP is roughly twice as important as SLG in terms of its effect on run scoring (x1.8 to be exact). However, OPS has value as a metric because it is accepted and used more widely than other, more accurate statistics while also being a relatively accurate representations of offense.”

It’s one of the best metrics to formulate hitting principles that encourage how to maximize a player’s contribution to the run scoring process.  On-Base Percentage (OBP) measures how often a player gets on base.  And Slugging Percentage (Slug%) measures how many extra base hits a hitter hits.  ISO, or Isolated Slugging (aka “raw power”, takes singles out of the equation), is better than Slug%, but I don’t want to complicate matters. Remember, the object of this game is to get runners on, and knock’em in.

 Okay, so what would be the top 2-3 priority concepts guided by this principle?

  • High frequency of hitting the ball hard.  Increase Ball Exit Speed, or how fast the ball comes off the bat.  However high Ball Exit Speeds with low Launch Angles are no good.  A few years ago Giancarlo Stanton hit a ball 123.8-mph…on the ground, one-hopper to the second baseman…double play. Ouch.
  • Optimize launch angle range between 15 to 25 degrees.  This is the ideal line drive range, and optimizes batted ball distance.  Some hate talking about Launch Angles, but every batted ball has a launch angle, even bunts.
  • Mechanics that optimize both of these are key.  How do we optimize Ball Exit Speeds?  (Hint: that’s what Power Hitter 2.0: Engineering The Alpha does).  What mechanics optimize Launch Angles and hitting more line drives?  (Hint: that’s what The Pitch-Plane Dominator does).  And importantly, my hitters don’t sacrifice swing quality for power.  We get both!  My hitters lower their strikeouts, mis-hits, fly-balls, and gross ground-balls with these online video courses.

I think there’s success on whatever part of the spectrum coaches find themselves on.  However, what if you lived on a planet that used forks and knives to eat soup?  What would happen if an alien came down and surprised them with a spoon?  Teaching hitting is the same.  There may be thousands of ways to teach hitters, but one way is most effective.  What is that way?  Applying human movement principles validated by REAL science, NOT “because-I-said-so ‘bro-science'”, to hitting a ball.   Have a higher standard for your hitters.

We as coaches have to reverse engineer the our swing strategy based on what the game values, which are runs!  The more runs your team can score (and prevent), the more WINS you get.  Don’t lose sight of that coaches.

How “Loading & Exploding The Hips” Can Be VERY Dangerous To The Lower Back…

We’ll get to the above video, but first let me be clear…

I’m not saying the pelvis doesn’t play a role in the swing, because it does.  However, I feel this spot reserved in the swing’s sequence of movements is hyper-focused on by a majority of hitting gurus.  More and more research is saying extreme “hip thrust” or “loading and exploding the hips” can be VERY damaging to the lower back over time.  You’ll see why in a moment, but for now please note that in this podcast episode, former USA Men’s Gymnastics Coach Sommers says the lower back portion of the spine isn’t made for a high degrees of rotation, but the T-Spine is.

Another thing I want to clear up,

We don’t teach a 100% pure rotational mechanics here.  We teach a blend of linear-rotational.  Please CLICK HERE to read our thoughts on this.

In this post, we’ll cover:

  • How the spine stacks up (quick anatomy lesson),
  • Does consistent power come from the ground? And,
  • Teaching hitters a safer more effective swing.

Let’s get started…

 

How the Spine Stacks Up

Photo courtesy: MayfieldClinic.com

Here’s a quick anatomy lesson of the spine:

  • Cervical – the vertebrae in your neck, consists of 7 vertebrae, are allowed to flex, extend, and rotate,
  • Thoracic – the vertebrae in the middle of spine including shoulders, consists of 12 vertebrae, which are also allowed to flex, extend, and rotate, and
  • Lumbar – the vertebrae in lower back, consist of 5 vertebrae, and are allowed to flex and extend ONLY.
  • Sacral & Coccyx – there are 5 fused vertebrae here, and the Coccyx is sometimes referred to as the “tail” bone.

Did you catch that about the Lumbar?  It’s important, so it bares repeating…the vertebrae in the lower back IS NOT built to rotate!  Right now, you may be thinking: “Wait a minute, how’s that?!  I’ve seen millions of swings, and the hitter’s pelvis (and lower back) are rotating!!”

According to Charlie Weingroff, DPT, CSCS, a physical therapist, a trainer in New York City, and is pretty high up on the human performance food chain, says this:

“Only your thoracic spine (which consists of the 12 vertebrae in your upper and middle back) is designed to rotate significantly — about 40 degrees in each direction, according to Weingroff — when under compression. The lumbar spine (lower back) should rotate no more than about 12 degrees.”

Some movement experts (like Thomas Myers, author of the book Anatomy Trains), says the lower back can rotate no more than 7-degrees.  So according to the experts, 7 to 12-degrees is a good rotational range for the Lumbar section of the spine. That’s NOTHING compared to the 40-degrees of rotation – in each direction – of the middle and upper back section of the spine (which includes shoulders).

So what’s happening then?  You see, since the lower back vertebrae are not designed to rotate, it’s the surrounding muscles that are rotating a fixed object (non-rotating Lumbar), and is why you do see rotation.   The T-Spine vertebrae are built to rotate (again, this includes the shoulders), hence is why hitting coaches should put their rotational focus there and NOT the hips, pelvis, or low back.

Is rotating back hip through the zone necessary for power? Not in the way most coaches think.  Consider this quote from Physicist, Electrical Engineer, and author of the book The Spinal Engine, Dr. Serge Gracovetsky:

“The axial rotation of the spine cannot happen unless the spine is flexed by the right amount on the correct side. Coaching an athlete to throw without a proper spinal position is an invitation to severe torsional injuries.”

Dr. Gracovetsky is referring to this “flex” as a side bend with the shoulders.  The point is, USE THE SHOULDERS to accomplish rotational power.  Warning for coaches: if you shrug this information off because of ego or pride, and continue to teach pelvis, hip, or lower back dominant twisting swings, then you’re wearing holes in the low backs of your hitters.  Be careful because the link is there, and one can be held liable.

Don’t worry, I’ll show those coaches doing this unknowingly a safer way, at the end of this post…

 

Does Consistent Power Come from the Ground?

Water Polo Throw

Water Polo throw photo courtesy: YouTube Egy image from video

You may be thinking, but consistent power comes from the ground…the pelvis is the first to interact with Gravitational Forces, and that’s why you teach “hip thrust”. I agree with Ted Williams that the ‘Hips Lead the Way’, but they don’t contribute as much to consistent power as most think.  I know this may sound earth shattering for some, so please stay with me here.

CLICK the following link to a post I did titled, “The Swing DOES NOT Start From The Ground & Move Up?”

This brings me to the water polo throw video above…

Let me ask you a question, what do you think the “fastest throw in Water Polo” is?  Doing a Google search using those keywords brings up the following statement:

The overhand shot from a Croatian senior men’s national team player is recognized as the fastest shot in the world at 60 MPH (96.5 KPH). The overhand shot is the standard throwing motion in water polo. It is the same arm motion as a pitcher uses in baseball.”

So, let’s think about this.  In water, there are little to no Gravitational Forces, and the best human floating in water, can throw a volleyball-sized ball 60-mph?  What do you think the speed would be if this person was floating in water and threw a baseball-sized ball instead?  75-mph?  80-mph? 90-mph?  Okay, so let’s say this top-of-the-food-chain water polo player throws a baseball floating in water 80-mph.  You’re telling me a top-of-the-food-chain pitcher in the Big Leagues, throwing down a mound, can only throw 20-mph more (assuming 100-mph) than someone throwing the same ball floating in water?!

I dunno, but this begs the question, does the pelvis (and lower Lumbar), OR the shoulders (and T-Spine) contribute the most to pitching velocity AND Ball Exit Speeds?

If you need to see more examples about this, then CLICK HERE for a swing experiment titled, “How Much Ball Exit Speed Does Pelvis Contribute To A High Level Swing?” 

Consider this Tweet from one of my readers…

And I added the following comment…

So what role do I think the pelvis and low back play in the swing, if not power?  Directional force.  Allows the hitter’s swing to convert Centripetal into Centrifugal Force.  In a nutshell, the hitter’s “belt buckle” must point in the direction of the batted ball.

So what’s the answer?

 

Teaching Hitters a Safer more Effective Swing

Here are some resources to get you started, outside of the ones already mentioned:

Coaches, PLEASE get educated.  Don’t let ego or pride get in the way of helping hitters swing safe.  Like Tony Robbins says,

“If you aren’t growing, then you’re dying.”