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Evidence of discrepancy in resistive force transmission during a friction loaded high intensity cycle ergometer calibration procedure
J.S. Baker
, R.S. Gordon
, K.L. Franklin
, B. Davies
Research output
:
Contribution to journal
›
Article
›
peer-review
2
Citations (Scopus)
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Dive into the research topics of 'Evidence of discrepancy in resistive force transmission during a friction loaded high intensity cycle ergometer calibration procedure'. Together they form a unique fingerprint.
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Keyphrases
Cycle Ergometer
100%
Friction
100%
Resistive Force
100%
Calibration Method
100%
Force Transmission
100%
Ergometer
75%
Flywheel
50%
High-intensity Exercise
25%
Exercise Performance
25%
Cycle Ergometry
25%
Exercise Physiology
25%
Large Deflection
25%
Rope Tension
25%
Static Condition
25%
Voltage Measurement
25%
Condition Value
25%
Head Displacement
25%
Calibration Test
25%
Static Calibration
25%
Dynamic Tension
25%
Aerobic Ability
25%
Dynamic Calibration
25%
Load Application
25%
Engineering
Resistive
100%
Static Condition
100%
Dynamic Condition
100%
Calibration Procedure
100%
Force Transmission
100%
Flywheel
66%
Head Displacement
33%
Load Application
33%
Electrical Measurement
33%
Nursing and Health Professions
Bicycle Ergometer
100%
Ergometer
75%
Ergometry
25%
Electric Potential
25%