1.
Analysis on Height of Jump in Chinese Men s Pole vault by using Energy Conservation Law;
我国男子撑竿跳高腾起高度的能量守恒定律分析
2.
Characteristics of Rate during Take off and Transit in Female Flop;
女子背越式跳高起跳和腾空阶段的速度特征
3.
Research on the Relationships Between Run-up Speed and Rising Angle in Back-leap High Jump;
助跑速度与腾起角度在背越式跳高中的关系研究
4.
When the sun set, the long legs jumped up.
当夕阳快落时,长腿高高腾空跃起。
5.
Once water begins to boil,its temperature no longer rises.
水一开始沸腾,温度就不再升高。
6.
Investigation on the relations between the best take-off angle and utilizing rate of running speed in long jump;
跳远最佳腾起角与助跑速度利用率关系的研究
7.
Leaping Angle--on the Efficient Ways to Improving the Performance of China s Men s Long Jump;
腾起角——提高我国男子跳远成绩的有效途径
8.
When water is heated, its temperature grows higher and higher until it boils .
水受热时,其温度越来越高,直到沸腾为止。
9.
On the Cognition of Rising High into the Air Actions in Martial Arts Contest;
对竞技武术套路演练中腾空高度的认知
10.
Corresponding explanations were given in view of boiling mechanism of highly-wetting liquid.
从强润湿性液体沸腾机理的角度对起始沸腾点的影响给出了相应的解释。
11.
A Study on the Smaller Angles of Projection of Splendid Male Long Jumpers of Our Country than That of Foreign Athletes;
我国优秀男子跳远运动员腾起角度小于国外优秀男子选手的探究
12.
Comparative Analysis on the Factor of Influencing the Men Jumping Athletes Jumping Vertical Speed;
影响国内外优秀男子跳远运动员的腾起垂直速度的因素比较分析
13.
Its lofty aspiration goes up from the earth and its feelings of selfless contributions to the universe are multiplied.
紧贴土地,升腾起崇高的心愿,繁衍出对宇宙无私奉献的情怀。
14.
Kinematic analysis on take-off and transit of female flop jumpers at different ranks;
不同等级女子跳高运动员起跳腾空的运动学分析
15.
The Kinematics Analysis on Technology of Our Excellent Women Jumper during the Take-off and Transit
我国优秀女子跳高运动员起跳与腾空技术的运动学分析
16.
Discussion on Library Service Innovation under E-learning Environment
腾蛟起凤、处变革新——也谈E-Learning环境下高校图书馆的服务创新
17.
She got9.0–9.5 for one of the most complicated combination–2.5 Forward Pike.
她在一个高难度动作-向前翻腾两周半屈体获得了9.0到9.5的高分。
18.
She got 9.0 ? 9.5 for one of the most complicated combination ? 2.5 Forward Pike.
她在一个高难度动作--向前翻腾两周半屈体获得了9.0到9.5的高分。