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- About Discussion of the Seebeck EMF 关于塞贝克电动势的讨论
- seebeck emf 西贝克电动势
- What about exposures at lower ELF EMF exposures? l那麽暴露在能量更低的极低频电磁场中呢?
- Only after this can the Ecore model be used to create an EMF model. 只有在此之后Ecore模型才能被用来创建一个EMF模型。
- The CDZ electrolyte free of Fe_2O_3 gives fast response in EMF. 不含 Fe_2O_3的 CDZ 固体电解质可对电动势作出快速响应.
- These are nonionizing EMF of much longer wavelength. 这些是非电离辐射,波长要长得多。
- Output vector formats: DXF, HPGL, EMF, WMF and others. 输出矢量格式: DXF格式, hpgl ,电磁场,有WMF等。
- How are people protected from possible health effects of ELF EMF? l该如何预防极低频电磁场可能对健康造成的危害?
- But an EMF could stand idle for even longer before it saw action. 但是欧洲货币基金组织可能会闲得更久才有机会做点事。
- Familar with Flex is a plus .Familar with GEF &EMF is plus . 每个单位都愿意招聘乐于助人的员工!
- The results show that:1,EMF model is in good agreement with the observations. 结果表明:(1)耀斑过程的EMF模型与观测结果基本符合,可以认为EMF模型能够较好地说明耀斑的物理过程。
- Lenz's Law: the emf is an equal and opposite reaction to the flux change. 楞次法则:电动势相等且相反于通量的变化.
- Both the electrical conductivity and Seebeck coefficient of PAn redoped by organic acid were higher. 用有机酸进行二次掺杂的聚苯胺电导率和Seebeck系数均有所提高 ;
- Change the spool data format from EMF (Enhanced Metafile) to RAW (Raw data). 更改后台打印数据格式由电磁场(增强型图元)在RAW (原始数据) 。
- The Seebeck coefficient is improved more effectively by adding Ni than by adding Ca. 掺杂Ca使材料的Seebeck系数也得到提高,但掺杂Ni对材料Seebeck系数的提高幅度要大于掺Ca。
- Typical EMF levels for transmission lines are shown in the chart on page 37. 典型输电线的电磁场等级可以在37页的图中看到(稍后我会向大家翻译此图)。
- The Seebeck coefficient measurement analysis indicated that Bi2-xTe3+x film have N-type semiconductor characteristic. 温差电性能测试分析表明,Bi_(2-x)Te_(3+x)薄膜材料具有半导体特性,塞贝克系数不随温度变化。
- The available methods of Seebeck coefficient of micro-scale material with MEMS structure were reviewed. 综述了微观尺度下利用MEMS结构测量硅材料塞贝克系数的已有工作。
- Higher sinter temperature is in favor of the electrical conductivity go against Seebeck coefficient to p-type materials. 对于p型材料,烧结温度的提高有利于材料电导率的提高,不利于材料Seebeck系数的提高。
- When Zn replace Ga entirely, the electrical conductivity of Ba_8Zn_8Ge_(38) compound drops rapidly and its Seebeck coefficient increases suddenly. 当Zn完全取代Ga时,Ba_8Zn_8Ge_(38)化合物的电导率反而急剧下降,Seebeck系数突然增大。
