您要查找的是不是:
- standing wave apparatus 驻波仪器
- VSWR.Abbreviation for Voltage Standing Wave Ratio. VSWR电压驻波比的缩写。
- VSWR? Voltage Standing Wave Ratio? 电压驻波比?
- Physical design of 2 MeV standing wave accelerating tube[J]. 引用该论文 柏伟;许州;金晓;黎明;杨兴繁;沈旭明.
- Standing wave LUM is the mainstream of the research of the LUM. 驻波型直线电机是直线型超声波电机发展的主流。
- There are specially made electricity wave apparatus to inspect the frequencies being used in normal games. 在正规的比赛都有使用特制的电波监测仪器监测场地范围的频率使用情况。
- Standing wave representations such as these are called atomic orbitals. 这种驻波示意图叫做原子轨道。
- There is no finite velocity of propagation, and we speak of a standing wave. 波没有有限的传播速度,因而我们称之为驻波。
- WARNING: Standing Wave Ratios in excess of 2:1 may cause transmitter damage. 警告:当驻波比超过2:1可能会导致发射部件受损。
- WARNING : Standing Wave Ratios in excess of 2:1 may cause transmitter damage. 警告:当驻波比超过2:1可能会导致发射部件受损。
- Standing Wave Rations in excess of 2:1 may cause transmitter damage. 当驻波比超过2:1可能会导致发射部件受损。
- The ultrashort wave apparatus is a important equipment most inuse, which are of six kinds of troubles must be fixed at once during theoperation,so that the treatment can be done in time. 超短波治疗仪是一种在物理康复治疗中常用重要设备,但在使用过程中,有6种故障要立即排除,以便保证按时治疗。
- For a standing wave,the region or point of maximum amplitude between adjacent nodes. 波腹,腹点一个连续波中,相邻波节中最大振幅的位置或点。
- Energy and its density of wave, Huygens principle, wave interference, standing wave and its characters, Double effect. 波的能量及能量密度;惠更斯原理;波的干涉,驻波及其特征,多普勒效应。
- ultrasonic wave apparatus for therapeutic use 超声波治疗机
- The resulting standing wave is a swirling motions such as might result if we swirled water in a round-bottomed cup. 所产生的驻波是一种旋转运动,它是在我们转动圆底杯中的水时会产生的现象。
- RSM-SY5 intelligent sound wave apparatus RSM-SY5智能型声波仪
- For a standing wave, the region or point of maximum amplitude between adjacent nodes. 波腹,腹点一个连续波中,相邻波节中最大振幅的位置或点
- The sound absorption coefficient of the material was tested by standing wave tube method. 采用驻波管法测试材料的吸声系数。
- The trajectories of particle movements in a standing wave acoustic field are recorded by fast-speed video camera. 采用可视化实验的方法,拍摄可吸入颗粒在驻波声场中的运动轨迹。