Using Drills for Troubleshooting

In your ongoing practice of swimming you eventually come to know what your best slippery form feels like and what your best efficient stroke feels like – these sensations are subjective – and you come to know what your objective metrics should show  – such as a certain pace or heart rate or stroke count.

You swimming practice is meant to work through these three tasks, in this order of priority according to physics:

  1. Remove or reduce the natural forces working against you
  2. Recruit the available natural forces that can assist you in moving forward
  3. Apply your own power – just the amount needed, and in the precise location and timing

Probably 90% or more of the struggles faced by common swimmers are solved by working on just the first two points above. However, it is easily observed that most swim programs seem to devote 90% of the time working on only #3, and they get far less improvement than they could because they haven’t sufficiently solved the first two points.

 

A Drill is a Diagnostic Tool

Drills are activities that allow you to isolate a part of the body or a part of the movement and make it easier to pay attention and control that part. Drills can also be used to help you diagnose a problem. By using a drill you can isolate a part of the body you suspect is having a problem and there you can experiment to find out what is causing that problem so you can correct it, and also notice what is working as it should so you can protect those features.

The fact that you can feel that something is wrong is a very good sign, and it is the first step to improvement. The next step is to find out exactly what it is so that you can work on it. 

But there is the problem of having hundreds of details to search through in the stroke! And if you don’t have a coach there to notice immediately and bypass all that you need a way of organizing your search for the root problem. So, this is where you take up a diagnostic map and guide you in a way to use drills to test various parts of the stroke in an orderly way and help expose the weak spots.

 

Your Diagnostic Map

The three points above examine the problem from a physics viewpoint. Then we overlay that physics viewpoint with physiological/neurological view point to build this Diagnostic Map:

1 – Look for Frame Problems

First use a drill to scan for problems in the frame, in the connection of the upper and lower parts of the body, in the balance, and in the stability (side to side balance).

2 – Look for Streamline Problems

Use a drill to scan for problems in rotation, in connection of the streamline side of the body, in the arm or scapula position, in the position of the head or legs.

3 – Look for Stability Problems

Use a drill to scan for problems in balance when moving the recovery arm, in the lead arm, in the legs, in the rotation angle.

4 – Look for Connection Problems

Use a drill to scan for problems in the connection of the entry arm to the torso, or with the catch and the torso rotation.

5 – Look for Breathing Problems

Use a drill to scan for problems with the position of the head, the timing of the turn, the air management, or how the movement toward or from breathing disturbs the stability of the body beneath.

6 – Look for Propulsion Problems

Use a drill to scan for ineffective entry and extension, rotation, catch shape or pathway, or the movement of the legs in relation to the torso’s rotation.

 

Always start by testing for frame and problems. For instance, if you turn off the legs and let them stream behind the body do your hips start to sink immediately? If you slow down your stroke to exaggerated slow tempo do you find you can’t hold a patient front arm? Or do you fall flat or have to turn onto your side to hold that pause?

If you don’t find a frame problem, then move on to streamline or stability. For instance, if you put a pause in your stroke right before you set the catch, do you lose velocity immediately (as if you are gliding in mud)? Does your extending arm cross toward your center line? Do your legs scissor while kicking? Do they spread sideways instead of vertical? Does the foot create a “thump” sound on each kick? Does it catch air and spread bubbles underwater?

 

Hone Your Subjective Senses

The use of the objective tools (a watch, counting strokes, tempo) is fairly easy to teach, because it involves things that are easy to observe and measure from the outside. The use of subjective tools, however, is both a science and an art and develops from lots of practice with regular testing (comparing to objective measurements) and exposure to others who use subjective tools skillfully in order to learn their tricks. Yet, these subjective measuring skills important for those on the mastery path to develop because by them you pilot your vessel and improve its flight.