著者

小木曽 一之 串間 敦郎 安井 年文 青山 清英

出版者

一般社団法人 日本体育学会

雑誌

体育学研究 (ISSN:04846710)

巻号頁・発行日

vol.41, no.6, pp.449-462, 1997-03-10 (Released:2017-09-27)

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The puropose of this study was twofold: (a) to investigate the pattern of change in the sprinting speed that is the final results of the sprinting movements, and (b) to find out whether the characteristics in the sprinting speed change due to the differences in age, sex, sprinting ability and training status. One-hundred thirty male and 123 female ordinary students aged 6 to 18, and 30 male and 23 female sprint runners aged 9, 10, 11 and 18 participated in this study. They were instructed to excute an exhaustive sprinting. Sprinting times ranged from about 20 to 30 sec. The elapsed times were measured every five meters in their sprinting. In the analysis, the polynomial curve fitting from 5th-degree to 9th-degree was used for the predictions of the sprinting distances with respect to the elapsed times every 0.1 sec. From the relations of the distances to times the following speeds were computed: 1) the sprinting speed that was computed by differentiating the sprinting distance, and 2) the average speed form start to the elapsed time every 0.1 sec. The sprinting speed reached the peak speed after about 6to 7 sec from start. The average speed showed the peak speed after about 15 sec from start. These characteristics with respect to time remained unchanged despite the differences in age, sex, sprinting performance and training status. The time at the maximum average speed was particularly stable. The maximum average speed was about 90% of the maximum sprinting speed. This result also remained unchanged despite the differences in age, sex, sprinting performance and training status,respectively. These results indicate that the pattern of change in the sprinting speed with respect to time is rather constant without the distinction of age, sex, sprinting performance and training status. The sprinting performance, however, improved with age and by training. This result was mostly caused by the increase of the maximum sprinting speed with age and by training. These characteristics with respect to time and speed seem to cause the differences in the sprinting distance.

著者

小木曽 一之 串間 敦郎 安井 年文 青山 清英

出版者

一般社団法人 日本体育学会

雑誌

体育学研究 (ISSN:04846710)

巻号頁・発行日

vol.41, no.6, pp.449-462, 1997

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The puropose of this study was twofold: (a) to investigate the pattern of change in the sprinting speed that is the final results of the sprinting movements, and (b) to find out whether the characteristics in the sprinting speed change due to the differences in age, sex, sprinting ability and training status. One-hundred thirty male and 123 female ordinary students aged 6 to 18, and 30 male and 23 female sprint runners aged 9, 10, 11 and 18 participated in this study. They were instructed to excute an exhaustive sprinting. Sprinting times ranged from about 20 to 30 sec. The elapsed times were measured every five meters in their sprinting. In the analysis, the polynomial curve fitting from 5th-degree to 9th-degree was used for the predictions of the sprinting distances with respect to the elapsed times every 0.1 sec. From the relations of the distances to times the following speeds were computed: 1) the sprinting speed that was computed by differentiating the sprinting distance, and 2) the average speed form start to the elapsed time every 0.1 sec. The sprinting speed reached the peak speed after about 6to 7 sec from start. The average speed showed the peak speed after about 15 sec from start. These characteristics with respect to time remained unchanged despite the differences in age, sex, sprinting performance and training status. The time at the maximum average speed was particularly stable. The maximum average speed was about 90% of the maximum sprinting speed. This result also remained unchanged despite the differences in age, sex, sprinting performance and training status,respectively. These results indicate that the pattern of change in the sprinting speed with respect to time is rather constant without the distinction of age, sex, sprinting performance and training status. The sprinting performance, however, improved with age and by training. This result was mostly caused by the increase of the maximum sprinting speed with age and by training. These characteristics with respect to time and speed seem to cause the differences in the sprinting distance.

著者

尾縣 貢 安井 年文 大山〓 圭悟 山崎 一彦 苅部 俊二 高本 恵美 伊藤 穣 森田 正利 関岡 康雄

出版者

一般社団法人 日本体育学会

雑誌

体育学研究 (ISSN:04846710)

巻号頁・発行日

vol.45, no.3, pp.422-432, 2000-05-10 (Released:2017-09-27)

被引用文献数

1

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A study was conducted to examine the relationship between the physical characteristics and race patterns of 400-m running in three elite 400-m runners.The experiments were composed of a physical fitness test and an analysis of 400-m race patterns.Maximal O_2 intake, maximal anaerobic power, isokinetic muscular endurance and isokinetic maximum muscular power were evaluated in a laboratory.Final 400-m races in the Japan Championship and the National Sports Festival were filmed using video cameras, and analyzed to calculate the changes in running speed during the 400-m distance.In accordance with the race analysis results, the three 400-m runners were divided into two types.One was the "even pace"type, which showed a tendency to maintain a higher running speed until the finish of the race.The other was the "first half"type, which showed the highest speed from the start until the 190-m point.The even pace type had a higher maximal O_2 intake and isokinetic muscular endurance of the lower limbs.The first half type was a good record holder over 100-m and 200-m distances.These results indicate that physical characteristics influence the race pattern of 400-m running.

著者

渡邉 信晃 榎本 好孝 大山〓 圭悟 狩野 豊 安井 年文 宮下 憲 久野 譜也 勝田 茂

出版者

一般社団法人 日本体育学会

雑誌

体育学研究 (ISSN:04846710)

巻号頁・発行日

vol.45, no.4, pp.520-529, 2000-07-10 (Released:2017-09-27)

被引用文献数

5 3

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The purposes of this study were 1)to investigate the relationship between sprint running performance and isokinetic hip strength, and 2)to clarify the muscles that are important in sprinting from the standpoint of isokinetic strength and muscle cross-sectional area(CSA).Sixteen male(100m sprinting time 10.99±0.46s)and 12 female(12.50±0.44s)subjects ran 60m and their sprinting speed was measured from 30 to 60m.Isokinetic strength of hip and knee flexion and extension(Nm)were mesured at 60, 180 and 300 deg/s.Magnetic resonance imaging(MRI)was used to determine the muscle cross-sectional area of the thigh(upper, middle and lower femur)and trunk.In females, there were no significant correlations between sprinting speed and isokinetic strength.In males, there were significant correlations between sprinting speed and hip strength(absolute value)at all angular velocities(r=0.51-0.75, p<0.05-0.01), except for hip extension at 300 deg/s.Extension at 60 deg/s was significant(r=0.64, p<0.01)only in the male knee.In males, there were significant correlations between the peak torque of hip extension and muscle CSAs of the hamstring and adductor(r=0.50-0.63, p<0.05-0.01), as well as between the peak torque of hip flexion and muscle CSAs of the psoas major and adductor(r=0.59-0.83, p<0.05-0.001).These results suggest that sprint running performance in males is influenced by the strength of hip flexion and extension.In addition, the muscle volume of the hamstring, adductor and psoas major muscles appears to play an important roles during sprint running in males.