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Roger O. Kollock, Bonnie Van Lunen, Stacie I. Ringleb and James Onate

The ability to produce force rapidly and to maintain it is essential to sports performance. Although rapid force production and endurance are indispensable characteristics of optimal health and performance, assessing these qualities of strength is difficult because of clinician time constraints. The purpose of this study was to determine if peak force is a predictor of rate of force production and strength endurance. The results indicated peak force is a predictor of rate of force development, but not strength endurance. Clinicians should assess both maximum strength and endurance to gain a more complete picture of lower extremity strength deficits.

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Paul Comfort, Thomas Dos’Santos, Paul A. Jones, John J. McMahon, Timothy J. Suchomel, Caleb Bazyler and Michael H. Stone

specific time points), this may indicate that there is a deficit in rapid force production. In this scenario, the focus of the subsequent mesocycle should emphasize activities that focus on rapid force production rather than maximal force production. 27 , 28 As such, this would ensure that the higher

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Ty B. Palmer, Jose G. Pineda and Rachel M. Durham

populations, reporting ICCs of 0.730–0.990 and CV values of 2.3–8.0%. 2 , 3 , 11 , 12 , 15 For late rapid force production (≥200 ms), isometric squat reliability coefficients of 0.760–0.940 and technical error of measurement values (equivalent to CV 32 ) of 8.1–9.4% have been reported for RFD200 and RFD250

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Dustin J. Oranchuk, Eric J. Drinkwater, Riki S. Lindsay, Eric R. Helms, Eric T. Harbour and Adam G. Storey

Optimizing muscle power and rapid force production is important for peak performance in several sports. 1 , 2 Weightlifting movements such as the power clean (PC) closely mirror many unloaded athletic movements as they are ballistic and biomechanically similar to jumping, sprinting, and change of

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Kevin M. Carroll, Jake R. Bernards, Caleb D. Bazyler, Christopher B. Taber, Charles A. Stuart, Brad H. DeWeese, Kimitake Sato and Michael H. Stone

sport. 5 , 7 Therefore, RM training may result in inferior training adaptations to RI SR training, particularly as it relates to rapid force production. A taper was prescribed for both groups between time points D and E. The taper consisted of reduced volume, relatively high intensity, and more

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John R. Harry, Max R. Paquette, Brian K. Schilling, Leland A. Barker, C. Roger James and Janet S. Dufek

jumpers. 7 This appears to allow for greater 9 and more rapid force production 7 during the concentric phase of the CMVJ. These jumping characteristics may be the underlying mechanism for greater propulsive impulse, which is known to determine CMVJ displacement. 10 The countermovement allows potential

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Lucas A. Pereira, Rodrigo Ramirez-Campillo, Saul Martín-Rodríguez, Ronaldo Kobal, César C.C. Abad, Ademir F.S. Arruda, Aristide Guerriero and Irineu Loturco

. Interestingly, the V c in both RF and BF muscles presented meaningful increases after the technical workout. These enhancements probably affected the SJ performance, allowing athletes to jump higher from a squat position, which relies more on rapid force production from 0 velocity, namely on muscle

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Annika Kruse, Christian Schranz, Martin Svehlik and Markus Tilp

.1097/PHM.0b013e31815b2675 17993987 10.1097/PHM.0b013e31815b2675 36. Waugh CM , Korff T , Fath F , Blazevich AJ . Effects of resistance training on tendon mechanical properties and rapid force production in prepubertal children . J Appl Physiol . 2014 ; 117 ( 3 ): 257 – 66 . PubMed ID

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Karim Korchi, Frédéric Noé, Noëlle Bru and Thierry Paillard

. , Yamada , Y. , & Akagi , R. ( 2016 ). Association between rapid force production by the plantar flexors and balance performance in elderly men and women . Age, 38 ( 5–6 ), 475 – 483 . PubMed ID: 27581165 doi:10.1007/s11357-016-9949-3 10.1007/s11357-016-9949-3 Flensmark , J. ( 2009 ). Physical