Jenkins, N. D., Miramonti, A. A., Hill, E. C., Smith, C. M., Cochrane-Snyman, K. C., Housh, T. J. & Cramer, J. T. (2021). Mechanomyographic amplitude is sensitive to load-dependent neuromuscular adaptations in response to resistance training. The Journal of Strength and Conditioning Research, 35 (11), 3265-3269. Zugriff am 11.03.2022 unter https://doi.org/10.1519/JSC.0000000000003276
APA-Zitierstil (7. Ausg.)Jenkins, N. D., Miramonti, A. A., Hill, E. C., Smith, C. M., Cochrane-Snyman, K. C., Housh, T. J., & Cramer, J. T. (2021). Mechanomyographic amplitude is sensitive to load-dependent neuromuscular adaptations in response to resistance training. The Journal of Strength and Conditioning Research, 35(11), 3265-3269.
Chicago-Zitierstil (17. Ausg.)Jenkins, N. D., A. A. Miramonti, E. C. Hill, C. M. Smith, K. C. Cochrane-Snyman, T. J. Housh, und J. T. Cramer. "Mechanomyographic Amplitude Is Sensitive to Load-dependent Neuromuscular Adaptations in Response to Resistance Training." The Journal of Strength and Conditioning Research 35, no. 11 (2021): 3265-3269.
MLA-Zitierstil (9. Ausg.)Jenkins, N. D., et al. "Mechanomyographic Amplitude Is Sensitive to Load-dependent Neuromuscular Adaptations in Response to Resistance Training." The Journal of Strength and Conditioning Research, vol. 35, no. 11, 2021, pp. 3265-3269.