The Power Position—Characteristics and Coaching Points
by Michael Stone PhD
NSCA Coach
August 2018
Vol 5, Issue 1
The power position is an integral position for a variety of power lifting movements. Athletes can develop their power position via an integrated approach involving sound exercise selection and purposeful instruction leading to enhanced strength and technique.
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This article originally appeared in NSCA Coach, a quarterly publication for NSCA Members that provides valuable takeaways for every level of strength and conditioning coach. You can find scientifically based articles specific to a wide variety of your athletes’ needs with Nutrition, Programming, and Youth columns. Read more articles from NSCA Coach »
References
1. Bartonietz, KE. Biomechanics of the snatch: Towards a higher training efficiency. Strength and Conditioning Journal 18(3): 24-31, 1996.
2. Beckham, GK, Lamont, HS, Sato, K, Ramsey, MW, Haff, GG, and Stone MH. Isometric strength of powerlifters in key positions of the conventional deadlift. Journal of Trainology 1: 32-35, 2012.
3. Beckham, G, Mizuguchi, S, Carter, C, Sato, K, Ramsey, M, Lamont, H, et al. Relationships of isometric mid-thigh pull variables to weightlifting performance. The Journal of Sports Medicine and Physical Fitness53(5): 573-581, 2013.
4. Beckham, GK, Sato, K, Santana, HAP, Mizuguchi, S, Haff, GG, and Stone, MH. Effect of body position on force production during the isometric mid-thigh pull. Journal of Strength and Conditioning Research32(1): 48-56, 2018.
5. DeWeese, BH, Serrano, AJ, Scruggs, SK, and Burton, JD. The midthigh pull: Proper application and progressions of a weightlifting movement derivative. Strength and Conditioning Journal 35(6): 54-58, 2013.
6. DeWeese, BH, Suchomel, TJ, Serrano, AJ, Burton, JD, Scruggs, SK, and Taber, CB. Pull from the knee: Proper technique and application. Strength and Conditioning Journal 38(1): 79-85, 2016.
7. Dos’Santos, T, Thomas, C, Comfort, P, McMahon, JJ, Jones, PA, Oakley, NP, and Young, AL. Between-session reliability of isometric mid-thigh pull kinetics and maximal power clean performance in male youth soccer players. Published ahead of print. Journal of Strength and Conditioning Research, 2017.
8. Enoka, RM. The pull in Olympic weightlifting. Medicine and Science in Sports 11(2): 131-137, 1979.
9. Garhammer, J. Biomechanical profiles of Olympic weightlifters. International Journal of Sport Biomechanics 1: 122-130, 1985.
10. Garhammer, J, and Gregor, R. Propulsion forces as a function of intensity for weightlifting and vertical jumping. Journal of Applied Sport Science Research 6(3): 129-134, 1992.
11. Garhammer, J, and Taylor, L. Center of pressure movements during weightlifting. Presented at the International Symposium on Biomechanics in Sports in Del Mar, California: 279-291, 1984.
12. Hamill, BP. Relative safety of weightlifting and weight training. Journal of Strength and Conditioning Research 8(1): 53-57, 1994.
13. Hori, N, Newton, RU, Andrews, WA, Kawamori, N, McGuigan, MR, and Nosaka, K. Does performance of hang power clean differentiate performance of jumping, sprinting, and changing of direction. Journal of Strength and Conditioning Research 22(2): 412-418, 2008.
14. Hornsby, WG, Haff, GG, Sands, WA, Ramsey, MW, Beckham, GK, Stone, ME, and Stone, MH. Alterations in strength characteristics for isometric and dynamic mid-thigh pulls in collegiate throwers across 11 weeks of training. Gazzata Medica Italiana – Archives of Science and Medicine 172(12): 929-940, 2013.
15. Stone, MH, Pierce, KC, Sands, WA, and Stone, ME. Weightlifting: A brief overview. Strength and Conditioning Journal 28(1): 50-66, 2006.
16. Stone, MH, Sanborn, K, O’Bryant, HS, Hartman, M, Stone, ME, Proulx, C, et al. Maximum strength-power-performance relationships in collegiate throwers. Journal of Strength and Conditioning Research17(4): 739-745, 2003.
17. Stone, MH, Sands, WA, Carlock, J, Callan, S, Dickie, D, Daigle, D, et al. The importance of isometric maximum strength and peak rate of force development in sprint cycling. Journal of Strength and Conditioning Research 18(4): 878-884, 2004.
18. Suchomel, TJ, Comfort, P, and Lake, JP. Enhancing the force-velocity profile of athletes using weightlifting derivatives. Strength and Conditioning Journal 39(1): 10-20, 2017.
19. Suchomel, TJ, Comfort, P, and Stone, MH. Weightlifting pulling derivatives: Rationale for implementation and application. Sports Medicine 45(6): 823-839, 2015.
20. Suchomel, TJ, Nimphius, S, and Stone, MH. The importance of muscular strength in athletic performance. Sports Medicine 46(10): 1419-1449, 2016.
21. Suchomel, TJ, and Sole, CJ. Power-time curve comparison between weightlifting derivatives. Journal of Sports Science and Medicine 16(3): 407-413, 2017.
22. Takano, RK. Weightlifting in the development of the high school athlete. Strength and Conditioning Journal 35(6): 67-74, 2013.
23. Thomas, C, Comfort, P, Jones, PA, and Dos’Santos, TA. Comparison of isometric mid-thigh-pull strength, vertical jump, sprint speed, and change-of-direction speed in academy netball players. International Journal of Sports Physiology and Performance 12(7): 916-921, 2017
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