| 1. | Thus the arrow points from high to low potential and in the direction of assumed current flow . 因而箭头是从高电位指向低电位,并且与假定的电流正方向一致。 |
| 2. | For the low membrane level and ,而高电位水平的发放基于 |
| 3. | Strong interaction of identical plates colloidal particles with surface high potential 等同的平板型高电位胶体颗粒的强相互作用 |
| 4. | Measuring method of radio - frequency high potential withstanding voltage for radio - frequency coaxial connectors 射频同轴连接器耐射频高电位电压测试方法 |
| 5. | The problem of high potential circuit power supply is the key problem of the research of hybrid optical - electronic current transformer 混合式光电电流互感器的高电位侧电路供电问题是其研制技术的一个关键。 |
| 6. | The results showed that the circuit of power supplies can supply the power about 200mw for the high potential circuit of optical current transformer well 实验结果表明:该电源部分能够很好地为光电电流互感器的高电位侧电路提供满足要求的约200mw的能量。 |
| 7. | Under the condition of ead generation , the low and high membrane level - 25 and - 55mv of voltage were clamped during the repolarization phase of action potential . on low membrane level of - 25mv , a slow inward current similar to 在低钾灌流并伴有ead的情况下,于动作电位复极相的低及高电位处- 25与- 55mv分别进行电压钳制。 |
| 8. | Superfusion , two levels - 25 and - 55mv of ead could be induced on the background of automaticity . the bursts in low membrane level ead were abolished by nifedipine 2 . 0mol l whereas those in high membrane level were abolished by lidocaine 10mol l and low temperature . the quasi - steady - state 低电位水平的发放可被硝苯吡啶2 . 0mol l消除,而高电位的发放可由利多卡因10mol l或低温30所抑制。 |
| 9. | This paper firstly introduces the control principle of magnetically controlled reactor , presents a retifier ' s monitor and control system of high potential based photoelectric convert according the demand of the electric reactor ' s system , the design and the implementation of the hardware and the software is given 介绍了磁控式可控电抗器的控制调节机理,并根据其系统的需求提出了一种基于光电转换的高电位整流器的监控系统,并给出了其硬件和软件的设计和实现。 |
| 10. | A significant suppression of phase transitions and lattice changes during cycling is occurred for ti - doped materials , and a decrease of interface reaction activity between the cathode and electrolyte is also demonstrated for ti - doped cathodes . as a result , the capacity losses , which are originated from structural changes and interface reactions during cycling , decrease and thereby cycling life increases for ti - doped materials 掺钦后,电极材料的离子分布形式发生变化,引起材料结构中的化学键产生变化,电极材料充放电过程中的结构相变得到有效抑制,结构变化相应减小,电极材料在高电位下的界面反应活性也减弱,从而减小了由结构变化和界面反应引起的容量损失,改善了电极材料的充放电循环性能。 |