levitating
英 [ˈlevɪteɪtɪŋ]
美 [ˈlevɪteɪtɪŋ]
v. (尤指用魔力或特别的精神力量)升空,空中飘浮,使升空,使飘浮
levitate的现在分词
COCA.42379
柯林斯词典
- VERB 升空;悬浮;飘浮
If someone or somethinglevitates, they appear to rise and float in the air without any support from other people or objects.- He has claimed he can levitate...
他声称自己可以悬浮在空中。 - Nina can, apparently, levitate a small ball between her hands.
尼娜看起来好像能够使一个小球悬浮在双手之间。
- He has claimed he can levitate...
双语例句
- A key technique in all these experiments is magnetic trapping-the art of levitating atoms in free space with the help of magnetic fields.
所有这些实验的关键技术是「阱」这种技术是藉著磁场使原子漂浮在半空中。 - So not only do these look great on your desktop levitating in thin air, they are also technology marvels!
那么不仅这些看起来伟大在您的浮动在稀薄的空气的桌面上,他们也是技术奇迹! - Then see your visual body levitating back down to the ground below you.
然后你视觉的身体从空中回到地面。 - The formula demonstrates that the levitation height is related with amplitude of transducer, mass and radius of levitating object, and density of medium.
公式表明:悬浮高度与换能器发射端的振幅、悬浮物体的质量、半径以及流体介质的密度有关,通过调节这几个因素,可以改变悬浮高度。 - At the booming developmental present time, Magnetic levitating bearing, with no friction, no wear, no lubrication, low power consumption, low noise, is being extensively demanded for application.
拥有无摩擦、无磨损、无需润滑、低功耗,无噪声等优点的磁悬浮轴承在如今飞速发展的今天,其应用与需求是越来越广。 - Meanwhile the rail centering of levitating unit is achieved by the guiding active control in the differential guiding current mode.
主动导向控制以导向电流差动方式实现了悬浮单元的轨道对中控制。 - The correlation between two major specifications of magnetic Levitating bearing, i.e., control accuracy and controllable rotating speed, and A/ D converter, transducer, power amplifier as well as control algorithm is analyzed.
分析了磁悬浮轴承的控制精度和可控转速两个重要性能指标与A/D转换器、传感器、功率放大器及控制算法之间的相互关系。 - A dynamics equations based on the Newton's laws was established to depict the vibration of the free levitating HTS or PML.
根据牛顿力学建立了超导永磁悬浮(HTS-PM)系统中悬浮体竖直方向振动的动力学方程。 - The composition and operational principle of magnetic levitating bearing are introduced.
介绍了磁悬浮轴承的组成及其工作原理。 - So using differential capacitor displacement detection technology is more appropriate than electricity eddy displacement detection technology in axial magnetic levitating bearing the displacement detection.
就轴向磁悬浮轴承的位移检测的运用,差动电容较电涡流位移检测技术更为合适。