By Pat Dougherty 

The ability to establish and defend a strong athletic foundation is THE MEASURE of a great tennis athlete, yet is the most underdeveloped aspect in the majority of players today.

In part 1 of the “Formula-1 Tennis Athlete”, you’ll learn all about the physical qualities of the “athletic foundation” and the importance of being able to establish, maintain and defend your athletic foundation during battle. Hopefully the knowledge you gain will motivate you to focus more time and energy developing your athletic prowess. We begin by exploring how the structural design and performance aspects of a racing car parallel the performance of a tennis athlete and why those aspects are so.

The racing industry has evolved into big time business today. NASCAR, IRL and Formula-1 car designs are wind tunnel tested in laboratories where scientists and engineers scrutinize every detail using the most advanced computer diagnostics, to determine how to build the fastest, best handling, safest, most fuel-efficient cars. What you see at Daytona, Indianapolis and on the Grand Prix circuit is the end result of millions of dollars invested to perfect the design and performance potential of race cars.

Form and Function

The structural design and component aspects of any vehicle tell the story of not only of a vehicle’s intended function but determine its performance capabilities. Indy and Formula-1 cars are built very similarly and are clearly designed for the purpose of racing. They have supercharged engines and speed shift transmissions that deliver explosive acceleration and high top end speeds. Beneath the car’s flashy exterior lies a sturdy frame reinforced by a very tight suspension for razor sharp handling. The car’s center of gravity hovers inches above the ground and the width of the wheelbase is proportionately very wide. Together, the wide base and low center of gravity enable the car to perform sharp turns at high speeds and achieve maximum resistance against the forces that cause rollovers. The Formula-1 and Indy designs are very practical for the challenges and demands of their sport.

Somewhere near the opposite end of the spectrum is a farm tractor. A tractor’s design reflects the specific needs of a farmer. It’s a multi-purpose vehicle with large, thick treaded wheels that provide solid traction in dirt and mud fields. Acceleration and speed aren’t essential requirements in farming so a tractor’s engine and transmission are very different than a racing car. A tractor’s engine and transmission are best equipped for the tasks of hauling heavy plows and various farm implements. The tractor’s high center of gravity provides enough ground clearance to travel above crops without damaging them. To meet the needs of a farmer, the tractor has very practical structural design qualities.

Now imagine a Formula-1 car attempting to perform the off-road tasks of a tractor. Among other things, minimal ground clearance and slick racing wheels make the Formula-1’s structural and performance features totally impractical and ineffective at performing the tasks of a tractor. Conversely, envision a tractor traveling at top speed through a slalom course designed for Formula-1 racing. The tractor’s high center of gravity and narrow wheelbase combined with sharp turns at high speeds would be a rollover certain to happen. There’s no question, the structural and performance features of a vehicle have a great impact on its capabilities and potential.

Human Performance

One of the first physical skills you learned as a baby was how to stand.  This skill involves a rather narrow footwork base roughly shoulder width apart, the legs fully extended and the knees somewhat locked. When you stand upright, your center of gravity is in its highest position. This is a relaxed position that can be comfortably maintained for long periods of time.

The skills you learned to walk incorporate many of the same qualities. The center of gravity is very high, the legs remain extended and the stride lengths are generally slightly wider than shoulder width. Standing and walking are certainly valuable skills in our everyday lives and share structural characteristics that closely resemble a tractor. In most movement-based athletic sports where the challenges on the body are great, the skill demands go well beyond standing and walking. As an athlete, you’ll never reach your full potential replicating the performance of a tractor.

The look of a great athlete…

How do we best define an athlete? Some use the term rather loosely to describe almost anyone who actively participates in sports. However, there are physical qualities that truly define a great athlete beyond mere participation. Could we say an athlete is defined as someone who has a muscular build and is very fit? Not necessarily. While most athletes certainly are well built and fit, I’ve seen more than my share of bodybuilders who maintain an athletic build, yet appear awkward, rather uncoordinated and anything but athletic, when performing in most sports.

Conversely, I’ve known many people who were once talented athletes in their youth and now are slightly overweight and out of shape, yet they still have the look of an athlete when competing today. If you are like most people, you know a great athlete when you see one in action. Just remember, “you can’t always judge a book by its cover”.

Muhammad Ali used the phrase “Float like a butterfly, sting like a bee” to describe his athletic prowess in the ring. Others often describe it as “poetry in motion”.

Movement-based sports

A great majority of sports could be classified as "movement-based sports", where footwork and movement skills are integral to one’s performance in competition. Tennis, Soccer, Basketball, Football and Baseball are just a few examples of such sports. Quick reactions, agile footwork, explosive multi-directional speed and instantaneous changes of direction are just a few of the movement demands in these sports. It would be safe to assume that those who possess great movement strengths have the best opportunity to succeed in any of these sports.

The greatest tennis players are typically “movement specialists” who are able to assert  their movement strengths as weapons to dominate the opposition. They maintain the intensity and motivation required to generate explosive reaction time and quick acceleration consistently for the duration of a match. They use their quickness to maximize offensive opportunities and cover every inch of court. Fluid and agile footwork enables them to efficiently track down balls and smoothly execute their strokes, even on the run. Instantaneous changes of direction and sharp recovery skills are their weapons for defending the court, minimizing open court opportunities for the opponent.

Movement specialists are athletes who understand how to transform their body structure to more resemble the design characteristics of a Formula-1 design.

                                        “Tale of the Tape” Comparison

The “athletic foundation” is a total body framework that when activated, powers and stabilizes all footwork and strokes. This foundation parallels the structural qualities of the Formula-1 car, achieving its structural integrity through muscular intensity. You’ll see the great athletes break down into their athletic foundation a split second before reaction to the opponent’s first shot, then work hard to defend these qualities until the point is over. The 3 essential structural features of the athletic foundation are:

·        Wide Footwork Base of Support (1.5 to 3 Shoulder widths apart)

·        Low Center of Gravity (Hip Position)

·        Reinforced Back Posture

Wide Base of Support

For quicker reaction, as well as better power and control in stroke production, the optimal reaction footwork base is 1.5 to 3 shoulder widths apart. Establishing a wider base makes it less stressful on the legs when maintaining a low center of gravity. If your footwork base is too narrow, you’ll struggle to remain low enough because it creates an added load on your legs which causes fatigue much more quickly. Another natural by-product of a very narrow base is very slow and inefficient first step reactions. (In part 2 of this series, you’ll learn all about first step reaction technique) When the footwork base is too narrow in the hitting stances, it prohibits effective forward weight transfer in neutral stances and typically results in too much upward launching through the stroke. The end result is a loss of power and control in stroke production

Many players aren’t comfortable establishing a wider footwork base because they feel it slows down their first-step reaction. However, there is a specific footwork technique top players develop to achieve an explosive first-step reaction from a wider base.

Another skill you must learn is how to center your balance on the balls of the feet. Great athletes develop the ability to quickly adjust and use tiny adjustment steps to best position their feet and their balance to generate the stroke. Centering their balance off the heels and on to the balls of the feet provides better power and stability to the stroke mechanics.

Low Center of Gravity

The actual location of the center of gravity in humans varies by body type. In females, the center of gravity tends to be between the hips, where in males it tends to be slightly higher. The difference is so nominal we typically refer to the hips as the general reference for the center of gravity.

When you are down in the athletic foundation position, you establish what is referred to as your “athletic height”. Your athletic height should measure approximately 6 inches to one foot below your normal standing height. You achieve this low-to-the-ground position through bending your knees to lower your hips, while maintaining upright back posture. Most players have trouble maintaining a low enough athletic height during play simply because they haven’t developed all the corresponding movement techniques associated with being low to the ground. In addition, it requires more leg strength and stamina to play low.  Being able to maintain a consistent athletic height in your movement produces that smooth and fluid look of the champions. Great athletes make movement look effortless, though it takes a considerable amount of effort to create that look. 

Because it is not easy to stay low and perform at the ideal athletic height, most players         succumb to playing too upright much of the time. As a result, they develop inefficient         movement habits that correspond with a high center of gravity. Some players try hard to         “play low” but just can’t seem to maintain the low athletic height. Coaches yell at them to “stay low” but it is often to no avail. The fact is, if you’ve never practiced and trained your body how to move while maintaining a low center of gravity, you are not equipped with the athletic techniques to get the job done. In the long run, playing too upright is so inefficient, it not only produces poor results (on court), but you’ll fatigue much more quickly over the course of a match.

However, you can learn and develop these techniques through quality practice. Initially you will experience greater demands on your lower body muscles while maintaining ideal athletic height until your body develops the ability and strength to best manage the load. Eventually, you’ll be far more efficient, produce much better results and have greater stamina to go the distance. So remember, for quickness, power, control and stability, “ low is the way to go”.

Strong Upright Back Posture & Intense Muscular Reinforcement of Foundation

Can a person’s self-confidence be accurately assessed merely by observing how they stand and carry themselves? Most certainly, and the most significant indicator is back posture. Typically, people tend to display low self-esteem and lack of confidence through poor back posture. Conversely, a person with high self-esteem and confidence tends to maintain strong upright posture. Beyond being a measure of your self-confidence, there are enormous physical benefits you gain by maintaining strong back posture.

Strong back posture is the final link to reinforcing your entire athletic foundation

We’ve all been told for good reason that when lifting heavy objects one should keep their back straight to avoid injury. This holds true when competing in sports like tennis where moving rigorously and creating powerful strokes are in demand. Learning to activate your back muscles with intensity to reinforce your posture creates an ideal support system for the shoulder mechanics.

Intensely reinforced back posture, efficiently channels the power generated from the lower body up to the shoulder mechanics to produce powerful strokes. In addition, posture ensures that the shoulders remain level and stable during stroke production, especially critical while sliding on clay.

From a movement perspective intensely reinforced back posture works like a tight suspension in a Formula-1 car.  It allows you to generate quick reactions and sharp changes of direction while resisting the forces of inertia that slow you down. 

Weak posture poorly manages the flow of power production and leads to strokes that easily breakdown. In addition, the risk of injury increases dramatically when you misuse the back muscles and maintain weak posture.

In addition to strong back muscles, great athletes need strength in the core muscles of the abdomen and around the hips.

Powerful Lower Body Muscles

The legs are the primary power source of movement acting like the supercharged engine of the Formula-1 car. Powerful “quick twitch’ muscles generate explosive movement. If you look at the top professional players, you’ll notice their thighs and backside are very well developed areas. This gives you an indication of how important lower body strength is to a tennis athlete’s performance. Your quadriceps and gluteus must be in great shape to perform low to the ground like a Formula-1 car.

Multi-Directional Quick Footwork Patterns

Tennis athletes develop a variety of footwork patterns that allow them to move quickly in any direction. Similar to the first gear in a Formula-1 car, the footwork strides must             be short and quick to achieve rapid acceleration. (We’ll explore the footwork patterns in more detail in part-2 of this series)

“Great athletes are born and not made”- Myth or Fact?

It is a popular misconception that athletes are strictly born and not made. Sure some people are lucky enough to be born with the genetics and natural ability to maintain a strong athletic foundation from a very young age. But others are able to develop their athletic foundation and qualities through years of specific training and development. However, even the most naturally gifted athletes typically need training and development to nurture and refine their skills to full potential.

I truly believe, through hard work and the right training regimen, it is very possible for less naturally athletic people to develop more athletic skills and movement techniques and evolve into better athlete over time. In many respects it’s very similar to learning to play a musical instrument. All it takes is time to learn the basics, then quality repetition of the specific skills and techniques to engrain the habits. The better you practice, the better you develop.

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