On the Fly: TritonWear Analyzes Components of Butterfly Success
Greetings swimmers, coaches, and swimming enthusiasts! We are back with another installment of the TritonWear Analysis series.
Previously, we analyzed freestyle, backstroke, and breaststroke, discussing the effects of increasing age, height, and ability on swimmers’ stroke efficiency. Today we turn to the fourth and final stroke, butterfly, and ask:As swimmers grow older and gain more experience, how do these changes affect their butterfly stroke count and time underwater?
To address this question, our data science team examined data from 842 male and 898 female swimmers (ages 10–25 years) who swam butterfly in 25m pools using Triton Units to collect swimmers’ stroke information.
For the other three strokes, our team focused on the significance of stroke rate and distance per stroke (DPS). However, for butterfly, we wanted to investigate other helpful metrics involved in butterfly success, including stroke count and time underwater.
As you can see from the graphs below, both male and female swimmers typically decrease their average number of butterfly strokes per length as they grow older:
Decrease their average number of butterfly strokes per length from12.9 (at age 10)to8.9 (at age 25)
Decrease their average number of butterfly strokes per lengthfrom 12.7 (at age 10)to10.0 (at age 25)
Based on this information, the logical conclusion is that if swimmers are decreasing their average number of butterfly strokes per length as they age, then they must also beimproving their distance per stroke(which is consistent with thefreestyle,backstroke, andbreaststrokefindings)and/orincreasing their time underwater.
When we reviewed the amount of time swimmers spend underwater during butterfly, we discovered both male and female swimmers increase their underwaters significantly from ages 10–25:
Increase their time underwater (while swimming butterfly) from3.33 seconds (at age 10)to3.87 seconds (at age 25)
Increase their time underwater (while swimming butterfly) from3.30 seconds (at age 10)to4.33 seconds (at age 25)
Although this increase in time spent underwater during butterfly may seem relatively small, this change does representa significant proportional increase; from ages 10-25:
male swimmers typically increase their time spent underwaterby 17%, and
female swimmers typically increase their time spent underwaterby 31%.
So, if both male and female swimmers aredecreasing their stroke countwhileincreasing their time underwater, then these swimmers are also, ideally,improving their underwater speedrelative to their overwater speed.
Time Underwater as a Percentage of Split Time
As swimmers become faster, their times drop (i.e. they take a shorter amount of time to cover the same distance), yet they tend to spend a greater portion of this shrinking time under the water.
So, our data sciences team decided to look attime spent underwater as a percentage of total split timeto learn about the effects of swimmers staying underwater relatively longer.
Increase theirtime spent underwateras a percentage of total split time(while swimming butterfly) from15.7 % (at age 10)to24.6% (at age 25).
Increase theirtime spent underwateras a percentage of total split time(while swimming butterfly) from15.1 % (at age 10)to25.5% (at age 25).
What we learn from these findings is that, when swimming butterfly, young swimmers spend most of their time above the water. However, as swimmers grow older, they further develop their underwater skills (e.g. push off strength, tight streamline, strong dolphin kicks, etc.), which become increasingly important components of butterfly races.
Conclusions & Recommendations
When swimming butterfly, young swimmers spend less time underwater and more above water, which corresponds to higher stroke counts. As swimmers become older and more experienced, they tend to increase their time underwater and decrease their time above water, which leads to a drop in stroke count.
One goal for swimmers is to work towards improving their underwater speed and then gradually increase their time underwater as a percentage of their overall split.
Should aim to increase:
(1) their time underwater by roughly 1 tenth of a second every 2.5 years, and
(2) their percentage of time spent underwater by approximately 0.6% per year.
Should aim to increase:
(1) their time underwater by roughly 1 tenth of a second every 1.5 years, and
(2) their percentage of time spent underwater by approximately 0.7% per year.
Lastly, one important noteis that swimmers should not seek to extend their time spent underwater simply for the sake of hitting particular targets; once a swimmer’s underwater speed drops below their swimming speed, they are probably missing out by staying underwater. When swimming butterfly, extending time spent underwater is beneficial in conjunction with improving underwater speed. As swimmers gain experience, they will continue working towards generating more speed through strong push-offs, efficient streamlining, and effective dolphin kicks.