| (1.华南师范大学 体育科学学院 激光运动医学实验室,广东 广州 510006;2.肇庆学院 体育与健康学院,广东 肇庆 526061;3.华南师范大学 生命科学学院,广东 广州 510631) 摘 要:传统的统计方法可以得出两组数据的定性分布差异,而定量差异(QD)可以得出它们的平均值差异。以黄金分割常数为底的对数称为黄金对数,研究发现一个新的自然常数可以表示黄金分割常数,且黄金对数保持不变,称其为自相似常数。自相似常数不但能表示部分基本物理常数,而且能表示部分运动记录和生理极限。用自相似常数表示QD在分子细胞水平、组织器官水平和整体水平功能3个方面与运动成绩的特征参数,并讨论了QD在体育科学中的初步应用。 |
LIU Cheng-yi1,ZHU Ling1,LI Fang-hui2,LIU Yan-ying2,DUAN Rui1,ZHANG Quan-guang1,LONG Cheng3
| (1.Laboratory of Laser Sports Medicine,School of Physical Education and Sports Science,South China Normal University,Guangzhou 510006,China;2.School of Physical Education and Health,Zhaoqing Institute,Zhaoqing 526061,China;3.School of Life Science,South China Normal University,Guangzhou 510631,China) Abstract: As for two sets of data, their qualitative distribution difference can be derived by using traditional statis-tical methods, while their mean value difference can be derived from quantitative difference (QD). A base-golden ratio logarithm is called as a golden logarithm, the authors found that a new natural constant can express the golden ratio, and its golden logarithm maintains unchanged, and called it as self-similar constant. The self-similar constant can not only express some fundamental physical constants, but also express some sports records and physiological limits. The authors used the self-similar constant to express the QD in athletic performance characteristic parameters in such 3 aspects as molecular cell level, tissue or organ level and overall level, and further discussed the QD’s pre-liminary applications in sports science. |
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