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The force–velocity relationship obtained during the squat jump exercise is meaningfully influenced by the initial knee angle

Danica Janićijević, Olivera M. Knežević, Dragan M. Mirkov, Alejandro Pérez‐Castilla, Milos R. Petrovic, Pierre Samozino, Amador García‐Ramos

2020Sports Biomechanics23 citationsDOI

Abstract

This study aimed to compare the magnitude of the force-velocity (F-V) relationship parameters (maximum force [F0], maximum velocity [V0], F-V slope, and maximum power [Pmax]) between the squat jumps (SJ) performed from different knee angles. The F-V relationships of 12 men were assessed in 3 sessions during the SJ performed from a knee angle of 80° (SJ80), 90° (SJ90) and 100° (SJ100). The SJ100 provided likely to very likely higher values of F0 and Pmax compared to SJ80 (86% and 98%, respectively) and SJ90 (73% and 94%, respectively), while unclear and trivial differences were observed for the remaining comparisons. The magnitude of the correlations between the 3 SJ types was very large to nearly perfect for Pmax (r range = 0.864 to 0.940), moderate to very large for F0 (r range = 0.438 to 0.778), and small to large for V0 (r range = 0.361 to 0.642) and the F-V slope (r range = 0.178 to 0.645). These results suggest that the F-V relationship assessed during the SJ exercise is affected by the initial knee angle with the increase of the knee angle from 80° to 100° being associated with higher values of F0 and Pmax, while V0 remains unchanged.

Topics & Concepts

Knee flexionSquatMathematicsJumpRange (aeronautics)Magnitude (astronomy)OrthodonticsPhysicsMedicinePhysical therapyMaterials scienceAstronomyComposite materialQuantum mechanicsSports Performance and TrainingSports injuries and preventionSport Psychology and Performance
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