ANALYSIS OF RUNNING SPEED ON CHANGES IN CADENCE, STRIDE AND POWER TRAINED RUNNERS
Background: Running speed is a key factor in athletic performance, yet a deep understanding of its impact on performance and injury prevention continues to evolve. An important aspect to consider is how speed influences cadence, stride, and power in trained runners. Method: This study employs an...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/82581 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Background: Running speed is a key factor in athletic performance, yet a deep
understanding of its impact on performance and injury prevention continues to evolve.
An important aspect to consider is how speed influences cadence, stride, and power in
trained runners. Method: This study employs an observational method by examining
three different running speeds and their effects on the changes in cadence, stride, and
power in trained runners, consisting of 15 men and 8 women. For statistical analysis,
regression analysis is used to determine the extent to which independent variables
influence dependent variables. Results: The data indicates a positive correlation
between running speed and running parameters. For men, cadence, stride, and power
showed significant changes. Specifically, cadence increased by 1.39% from easy run
to tempo run, by 1.46% from tempo run to high intensity, and by 2.78% from easy run
to high intensity. Stride increased by 20.66% from easy run to tempo run, by 24.88%
from tempo run to high intensity, and by 50.17% from easy run to high intensity. Power
increased by 21.11% from easy run to tempo run, by 23.77% from tempo run to high
intensity, and by 49.00% from easy run to high intensity. For women, cadence
increased by 1.01% from easy run to tempo run, by 1.42% from tempo run to high
intensity, and by 2.33% from easy run to high intensity. Stride increased by 13.89%
from easy run to tempo run, by 22.42% from tempo run to high intensity, and by 34.22%
from easy run to high intensity. Power increased by 19.74% from easy run to tempo
run, by 27.12% from tempo run to high intensity, and by 42.59% from easy run to high
intensity. Conclusion: The analysis confirms a positife correlation between speed and
the observed running parameters, specifically stride and power. Increased speed
significantly contributes to the enhancement of cadence, stride and power in trained
runners. However, changes in cadence do not always align with increased speed, with
greater changes observed in stride and power compared to cadence.
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