Field strength consisted of two geologists.
野外人员包括两个地质人员。
The tesla is the unit that defines magnetic field strength.
即一万亿分之一特斯拉,特斯拉是磁感应强度的计量单位。
All its metal pole pieces in place for higher gap field strength.
所有的金属在磁场强度更大的缺口磁极位置。
Thegelatinization temperature increases with electric field strength.
糊化温度随电场强度的增大而升高。
There was a good agreement between measured and calculated field strength.
这种方法在测量与场强度计算间有很好的一致性。
These exposure estimates were calculated with a field strength prediction program.
这些电磁场的暴露估计由一种场强度预测程序来计算。
The systems of mobile channel field strength estimate are significant for application.
移动信道场强预测系统在实际应用中具有重要意义。
Shield the magnetic field with an appropriate material for the frequency and field strength.
要根据磁场频率和强度选择合适的屏蔽材料。
The influence of ionic field strength and polarization on diffusion behavior is also discussed.
本文还讨论了离子场强和极化对扩散的影响。
Elongating the time of polarity reversal can reduce the field strength under polarity reversal.
延长极性反转时间可降低极性反转时的场强。
Do sum up four types using Gauss law to solute the Field strength problems by typical instances.
通过典型例题,归纳出用高斯定理求解场强问题的四种类型。
The result can be used in further study about the yield-stress and critical electric field strength.
分析结果可作为进一步讨论电流变液屈服应力以及临界电场强度的基础。
Microwave power density (microwave field strength) is an important parameter in field strength metrology.
微波功率密度(微波场强)是场强计量中的一个重要参数。
As the field strength of the static field increases, so does the potential for a variety of interactions with the body.
由于静电场的场强度增强,从而与身体产生的各种相互作用也有可能增强。
Recently, they were packaged with fiber optics for detecting the light signals that register magnetic field strength.
目前,它们被封装进检测光信号的光学器件,以记录磁场的强度。
To compare the relationship between the artifact of different fixed prosthesis and field strength, scanning sequence.
同时比较不同修复体产生伪影与磁场强度及扫描序列之间的关系。
And finite element method was adopted to calculate the electric field strength to find whether it is beyond the critical.
对于金属导体引起的电场不规则畸变,采用有限元的方法计算场强以验证是否超出临界值。
The experimental results showed that the extraction rate and mass transfer flux increased with the field strength increasing.
实验结果表明,电场强度的增大可以有效地提高溶质的萃取率,传质通量也随之增大;
However, all properties of GFRPP would be deteriorated under the condition of adopting extremely high shearing field strength.
在极高剪切场强度的条件下,GFRPP的力学性能和热性能有所下降。
Therefore, the cooling effect of the electromagnet is an important factor to keep the magnetic field strength not decreasing rapidly.
因此,电磁铁好的冷却散热效果是保持其场强不急剧减弱的重要因素。
Objective To discuss the signal character and diagnosis and difference diagnosis of infectivity rachitis on low field strength MR Imaging.
目的探讨感染性脊柱炎在低场强MR的信号特征及其诊断与鉴别诊断价值。
Also, in Parts of districts, we consider the ground composite electrical field strength and electrical insulation strength effects together.
部分区域综合考虑地面合成场强及电气绝缘强度的影响确定相关距离。
First of all, matter is the weakest. The smallest plasma field strength, and plasma covers the full spectrum of the matter, above and below it.
首先,物质是最弱的,最小的等离子场强些,磁场最强,而且物质覆盖了它所有的频谱,无论上面还是下面。
The change distribution and the additional electric field strength distribution are both proportional to the square of the dust layer thickness.
基于静电学理论导出带电粉尘层内的电量分布和电场分布随粉尘层厚度变化的数学模型。
A function of probability distribution of fading is derived and the deviation coefficient and probability coefficient of field strength are obtained.
并研究场强沿铁路的起伏规律,导出场强起伏的概率分布函数,得到场强偏差系数和概率系数。
The effect of field strength, initial phase, bunch shape and charge on electron beam transverse emittance is also explored by numeric simulation method.
利用数值模拟方法研究了加速场强、注入相位、束团大小、形状、电荷等因素对束流横向发射度产生的影响。
Other factors of influencing er effect such as size and shape of particle, volume fraction, electric field strength, shear rate, temperature are discussed.
并对影响电流变液电流变效应的其它因素如聚苯胺粒子大小、形状,体积分数,外加电场强度,剪切速率,外界温度等进行了实验分析。
These magnetic forces are monstrous when compared with the magnetic field strength of our planet — which measures in at less than 1 gauss at the Earth's surface.
比起地球表面上不到1高斯的的磁场强度这些磁场大的惊人。
On the other hand, it can also be expressed in terms of the translation gauge field strength and therefore is covariant under general coordinate transformations.
另一方面,引力场的能量动量又可以表示为平移规范场强的二次齐式因而在广义坐标变换下协变。
On the other hand, it can also be expressed in terms of the translation gauge field strength and therefore is covariant under general coordinate transformations.
另一方面,引力场的能量动量又可以表示为平移规范场强的二次齐式因而在广义坐标变换下协变。
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