Kinetics and kinematics of the free-weight back squat and loaded jump squat

Thompson, S. W., Lake, J. P., Rogerson, D., Ruddock, A. and Barnes, A. (2023) Kinetics and kinematics of the free-weight back squat and loaded jump squat. Journal of Strength and Conditioning Research, 37 (1). pp. 1-8. ISSN 1064-8011

[thumbnail of Thompson, Steve W., Lake, Jason P.,  et al; Kinetics and Kinematics of the Free-Weight Back Squat and Loaded Jump Squat. Journal of Strength and Conditioning Research 37(1):p 1-8, January 2023. | DOI: 10.1519/JSC.0000000000004186] Text (Thompson, Steve W., Lake, Jason P., et al; Kinetics and Kinematics of the Free-Weight Back Squat and Loaded Jump Squat. Journal of Strength and Conditioning Research 37(1):p 1-8, January 2023. | DOI: 10.1519/JSC.0000000000004186)
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Abstract

Thompson, SW, Lake, JP, Rogerson, D, Ruddock, A, and Barnes, A. Kinetics and kinematics of the free-weight back squat and loaded jump squat. J Strength Cond Res 37(1): 1–8, 2023—The aim of this study was to compare kinetics and kinematics of 2 lower-body free-weight exercises, calculated from concentric and propulsion subphases, across multiple loads. Sixteen strength-trained men performed back squat 1 repetition maximum (1RM) tests (visit 1), followed by 2 incremental back squat and jump squat protocols (visit 2) (loads = 0% and 30–60%, back squat 1RM). Concentric phase and propulsion phase force-time-displacement characteristics were derived from force plate data and compared using analysis of variance and Hedges' g effect sizes. Intrasession reliability was calculated using intraclass correlation coefficient (ICC) and coefficient of variation (CV). All dependent variables met acceptable reliability (ICC >0.7; CV < 10%). Statistically significant 3-way interactions (load × phase × exercise) and 2-way main effects (phase × exercise) were observed for mean force, velocity (30–60% 1RM), power, work, displacement, and duration (0%, 30–50% 1RM) (p < 0.05). A significant 2-way interaction (load × exercise) was observed for impulse (p < 0.001). Jump squat velocity (g = 0.94–3.80), impulse (g = 1.98–3.21), power (g = 0.84–2.93), and work (g = 1.09–3.56) were significantly larger across concentric and propulsion phases, as well as mean propulsion force (g = 0.30–1.06) performed over all loads (p < 0.001). No statistically significant differences were observed for mean concentric force. Statistically longer durations (g = 0.38–1.54) and larger displacements (g = 2.03–4.40) were evident for all loads and both subphases (p < 0.05). Ballistic, lower-body exercise produces greater kinetic and kinematic outputs than nonballistic equivalents, irrespective of phase determination. Practitioners should therefore use ballistic methods when prescribing or testing lower-body exercises to maximize athlete's force-time-displacement characteristics.

Publication Type: Articles
Additional Information: Copyright © 2022, © 2021 National Strength and Conditioning Association.
Uncontrolled Keywords: force plate testing, mechanical output, ballistic exercise, force-time-displacement characteristics, strength testing
Subjects: G Geography. Anthropology. Recreation > GV Recreation Leisure > GV201 Physical education and training
G Geography. Anthropology. Recreation > GV Recreation Leisure > GV557 Sports
G Geography. Anthropology. Recreation > GV Recreation Leisure > GV557 Sports > GV711 Coaching
Divisions: Academic Areas > Institute of Sport
Academic Areas > Institute of Sport > Research Theme > Enhancing Sport Performance
Academic Areas > Institute of Sport > Research Theme > Occupational Performance
Research Entities > Centre for Health and Allied Sport and Exercise Science Research (CHASER)
SWORD Depositor: Publications Router Jisc
Depositing User: Publications Router Jisc
Date Deposited: 22 May 2024 10:54
Last Modified: 15 Nov 2024 10:40
URI: https://eprints.chi.ac.uk/id/eprint/7379

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