场强指示器,RSSI(received signal strength indicator),在线英语词典,英文翻译,专业英语

1) RSSI(received signal strength indicator)

场强指示器

2) received signal strength indicator(RSSI)

场强指示器（RSSI）

3) field intensity

场强

The results show that the shape of the electric field intensity–resistivity curve resembles the reverse form of letter S.

结果表明:CFRC材料的电阻率–场强曲线呈反S形;随碳纤维掺量的增加,场强对其电阻率的影响逐渐减小。

The paper probed into the regular pattern how to steadly and reliably transmit the signal of mobile communication system in underground by the theory analysis of transmission of leakage electromagnetic field in underground and the measurement of the distribution of field intensity in entry.

通过井下无线电漏泄电磁场传播的理论分析以及对巷道中场强分布的测量 ,探讨了井下移动通信系统的信号如何稳定、可靠传播的规

With the project as a practical example,part of the detection curves and infrared radiation field intensity values obtained from infrared detection in the cross-section are analyzed in the paper.

介绍了红外探水技术的基本原理和布点方法,通过实例分析了分部红外探测得到的红外辐射场强值和绘出的红外探测曲线,得出探测结论,并和实际情况进行验证,说明探水效果良好,为隧道顺利施工提供科学依据。

4) field strength

场强

To work out the solution to these problems, enhancing the field strength and Covering Rate,extending the distance in communication,improving the definition of voice are essential.

设计了完整的方案,提高了原无线列调中存在的弱场区的场强,并增大场强覆盖率,使通话距离得到扩展,改善了话音质量。

Applying the classical method,using anisotropic rectangular coordinates,this article educes the field strength expression by electrified cylindroid and cylindrical surface as well as infinite straight lead in linear anisotropic homogeneous dielectric.

应用各向异性直角坐标系的概念 ,借助经典的定理 E( x) =- xΦ(x) ,导出了带电椭圆柱面、圆柱面、无限长直导线在线性各向异性均匀电介质中的场强表达式。

The empirical formula for calculating the maximum electric field strength of the particle in a non uniform field is derived.

提出了一个经验公式 ,用于解析计算颗粒物在非均匀电场中的最大场强。

5) Electric Field Intensity

场强

Electric Field Intensity of a Uniformly Charged Cylindrical Surface With Limited Length;

有限长均匀带电薄圆柱面面上的场强

The relation between potential and electric field intensity is an important content in electromagentics.

电势和场强的关系是电磁学中的一个重要内容。

Firstly this paper introduces the principle and method to measure the electric field intensity, then gives the method to enhance the veracity of measuring the electric field intensity from the choice of instruments, calibration of the instruments and the method of measuring the electric field intensity.

首先介绍了场强测量的原理和方法以及影响场强测量精度的因素,然后从场强测量仪器选择、场强测量仪器校准、场强测量方法三个方面给出了提高无线电信号场强测量准确度的方法。

6) electric field strength

场强

This paper intends to analyze influence of cylinder conductor for uniform electric field,and explains that the reason of easy breakdown of condenser with semicircle cylinder jut is that the electric field strength of the bulgiest position is two times as much as that of position far from the cylinder jut.

分析了柱形导体对均强电场的影响并以此为依据说明了有柱形凸起的高压电容器易击穿的原因是最凸部场强为远离凸部场强的 2倍。

It was put forward that a method to solve the electric field strength in the electrified surface and to solve electric potential about electrified surface.

给出了求解带电面上各点场强的方法及与带电面相关的电势的求解方法，并通过论证建议将静电平衡条件修正为两条。

In this paper,the authors measured the dependence of pitch on electric field strength in FCS101 ,proposed a theoretical model and obtained numerical results which fit well with the experimental data.

测量了 FCS1 0 1铁电液晶螺距与场强的关系 ,同时给出了理论分析。

参考词条

晶场强度场强梯度饱和场强离子场强击穿场强场强幅值同质异能态旅游度假别墅

补充资料：指示剂与指示液

【通用名称】

指示剂与指示液

【其他名称】

指示剂与指示液附录ⅩⅤ E. 指示剂与指示液二苯胺磺酸钠指示液取二苯胺磺酸钠0.2g，加水100ml使溶解，即得。二苯偕肼指示液取二苯偕肼1g，加乙醇100ml使溶解，即得。双硫腙指示液取双硫腙50mg，加乙醇100ml使溶解，即得。石蕊指示液取石蕊粉末10g,加乙醇40ml，回流煮沸1小时,静置，倾去上层清液，再用同一方法处理二次，每次用乙醇30ml，残渣用水10ml洗涤，倾去洗液，再加水50ml 煮沸，放冷，滤过，即得。变色范围 pH4.5～8.0（红→蓝）。甲酚红指示液取甲酚红0.1g，加0.05mol/L氢氧化钠溶液5.3ml使溶解，再加水稀释至100ml，即得。变色范围 pH7.2～8.8（黄→红）甲酚红－麝香草酚蓝混合指示液取甲酚红指示液1份与0.1％麝香草酚蓝溶液3份, 混合，即得。甲基红指示液取甲基红0.1g，加0.05mol/L氢氧化钠溶液7.4ml使溶解，再加水稀释至200ml，即得。变色范围 pH4.2～6.3（红→黄）。甲基红－亚甲蓝混合指示液取0.1％甲基红的乙醇溶液20ml，加0.2％亚甲蓝溶液 8ml，摇匀，即得。甲基红－溴甲酚绿混合指示液取0.1％甲基红的乙醇溶液20ml，加0.2％溴甲酚绿的乙醇溶液30ml，摇匀，即得。甲基橙指示液取甲基橙0.1g，加水100ml使溶解，即得。变色范围 pH3.2～4.4（红→黄）。甲基橙－二甲苯蓝FF混合指示液取甲基橙与二甲苯蓝FF各0.1g，加乙醇100ml使溶解，即得。邻二氮菲指示液取硫酸亚铁0.5g，加水100ml使溶解,加硫酸2滴与邻二氮菲0.5g, 摇匀，即得。本液应临用新制。茜素磺酸钠指示液取茜素磺酸钠0.1g，加水100ml使溶解，即得。变色范围 pH3.7～5.2（黄→紫）荧光黄指示液取荧光黄0.1g，加乙醇100ml使溶解，即得。钙黄绿素指示剂取钙黄绿素0.1g，加氯化钾10g，研磨均匀，即得。钙紫红素指示剂取钙紫红素0.1g，加无水硫酸钠10g,研磨均匀，即得。姜黄指示液取姜黄粉末20g，用冷水浸渍4次，每次100ml,除去水溶性物质后，残渣在100℃干燥，加乙醇100ml，浸渍数日，滤过，即得。结晶紫指示液取结晶紫0.5g，加冰醋酸100ml使溶解，即得。酚酞指示液取酚酞1g，加乙醇100ml使溶解，即得。变色范围 pH8.3～10.0（无色→红）。铬黑T指示剂取铬黑T 0.1g，加氯化钠10g，研磨均匀，即得。淀粉指示液取可溶性淀粉0.5g，加水5ml搅匀后，缓缓倾入100ml沸水中，随加随搅拌，继续煮沸2分钟，放冷，倾取上层清液，即得。本液应临用新制。硫酸铁铵指示液取硫酸铁铵8g，加水100ml使溶解，即得。溴酚蓝指示液取溴酚蓝0.1g，加0.05mol/L氢氧化钠溶液3.0ml使溶解，再加水稀释至200ml，即得。变色范围 pH2.8～4.6（黄→蓝绿）。溴麝香草酚蓝指示液取溴麝香草酚蓝0.1g，加0.05mol/L氢氧化钠溶液3.2ml使溶解，再加水稀释至200ml，即得。变色范围 pH6.0～7.6（黄→蓝）。麝香草酚酞指示液取麝香草酚酞0.1g，加乙醇100ml使溶解，即得。变色范围 pH9.3～10.5（无色→蓝）。麝香草酚蓝指示液取麝香草酚蓝0.1g，加0.05mol/L氢氧化钠溶液4.3ml使溶解，再加水稀释至200ml，即得。变色范围 pH1.2～2.8（红→黄）；pH8.0～9.6（黄→紫蓝）。

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

首页 \| 翻译 \| 影视 \| 论坛 \| 索引磁场强度电场强度外场强化体表场强电场强化高场强区

1) RSSI(received signal strength indicator) 场强指示器 2) received signal strength indicator(RSSI) 场强指示器（RSSI） 3) field intensity 场强 1. The results show that the shape of the electric field intensity–resistivity curve resembles the reverse form of letter S. 结果表明:CFRC材料的电阻率–场强曲线呈反S形;随碳纤维掺量的增加,场强对其电阻率的影响逐渐减小。 2. The paper probed into the regular pattern how to steadly and reliably transmit the signal of mobile communication system in underground by the theory analysis of transmission of leakage electromagnetic field in underground and the measurement of the distribution of field intensity in entry. 通过井下无线电漏泄电磁场传播的理论分析以及对巷道中场强分布的测量 ,探讨了井下移动通信系统的信号如何稳定、可靠传播的规 3. With the project as a practical example,part of the detection curves and infrared radiation field intensity values obtained from infrared detection in the cross-section are analyzed in the paper. 介绍了红外探水技术的基本原理和布点方法,通过实例分析了分部红外探测得到的红外辐射场强值和绘出的红外探测曲线,得出探测结论,并和实际情况进行验证,说明探水效果良好,为隧道顺利施工提供科学依据。 4) field strength 场强 1. To work out the solution to these problems, enhancing the field strength and Covering Rate,extending the distance in communication,improving the definition of voice are essential. 设计了完整的方案,提高了原无线列调中存在的弱场区的场强,并增大场强覆盖率,使通话距离得到扩展,改善了话音质量。 2. Applying the classical method,using anisotropic rectangular coordinates,this article educes the field strength expression by electrified cylindroid and cylindrical surface as well as infinite straight lead in linear anisotropic homogeneous dielectric. 应用各向异性直角坐标系的概念 ,借助经典的定理 E( x) =- xΦ(x) ,导出了带电椭圆柱面、圆柱面、无限长直导线在线性各向异性均匀电介质中的场强表达式。 3. The empirical formula for calculating the maximum electric field strength of the particle in a non uniform field is derived. 提出了一个经验公式 ,用于解析计算颗粒物在非均匀电场中的最大场强。 5) Electric Field Intensity 场强 1. Electric Field Intensity of a Uniformly Charged Cylindrical Surface With Limited Length; 有限长均匀带电薄圆柱面面上的场强 2. The relation between potential and electric field intensity is an important content in electromagentics. 电势和场强的关系是电磁学中的一个重要内容。 3. Firstly this paper introduces the principle and method to measure the electric field intensity, then gives the method to enhance the veracity of measuring the electric field intensity from the choice of instruments, calibration of the instruments and the method of measuring the electric field intensity. 首先介绍了场强测量的原理和方法以及影响场强测量精度的因素,然后从场强测量仪器选择、场强测量仪器校准、场强测量方法三个方面给出了提高无线电信号场强测量准确度的方法。 6) electric field strength 场强 1. This paper intends to analyze influence of cylinder conductor for uniform electric field,and explains that the reason of easy breakdown of condenser with semicircle cylinder jut is that the electric field strength of the bulgiest position is two times as much as that of position far from the cylinder jut. 分析了柱形导体对均强电场的影响并以此为依据说明了有柱形凸起的高压电容器易击穿的原因是最凸部场强为远离凸部场强的 2倍。 2. It was put forward that a method to solve the electric field strength in the electrified surface and to solve electric potential about electrified surface. 给出了求解带电面上各点场强的方法及与带电面相关的电势的求解方法，并通过论证建议将静电平衡条件修正为两条。 3. In this paper,the authors measured the dependence of pitch on electric field strength in FCS101 ,proposed a theoretical model and obtained numerical results which fit well with the experimental data. 测量了 FCS1 0 1铁电液晶螺距与场强的关系 ,同时给出了理论分析。参考词条晶场强度场强梯度饱和场强离子场强击穿场强场强幅值同质异能态旅游度假别墅补充资料：指示剂与指示液【通用名称】指示剂与指示液【其他名称】指示剂与指示液附录ⅩⅤ E. 指示剂与指示液二苯胺磺酸钠指示液取二苯胺磺酸钠0.2g，加水100ml使溶解，即得。二苯偕肼指示液取二苯偕肼1g，加乙醇100ml使溶解，即得。双硫腙指示液取双硫腙50mg，加乙醇100ml使溶解，即得。石蕊指示液取石蕊粉末10g,加乙醇40ml，回流煮沸1小时,静置，倾去上层清液，再用同一方法处理二次，每次用乙醇30ml，残渣用水10ml洗涤，倾去洗液，再加水50ml 煮沸，放冷，滤过，即得。变色范围 pH4.5～8.0（红→蓝）。甲酚红指示液取甲酚红0.1g，加0.05mol/L氢氧化钠溶液5.3ml使溶解，再加水稀释至100ml，即得。变色范围 pH7.2～8.8（黄→红）甲酚红－麝香草酚蓝混合指示液取甲酚红指示液1份与0.1％麝香草酚蓝溶液3份, 混合，即得。甲基红指示液取甲基红0.1g，加0.05mol/L氢氧化钠溶液7.4ml使溶解，再加水稀释至200ml，即得。变色范围 pH4.2～6.3（红→黄）。甲基红－亚甲蓝混合指示液取0.1％甲基红的乙醇溶液20ml，加0.2％亚甲蓝溶液 8ml，摇匀，即得。甲基红－溴甲酚绿混合指示液取0.1％甲基红的乙醇溶液20ml，加0.2％溴甲酚绿的乙醇溶液30ml，摇匀，即得。甲基橙指示液取甲基橙0.1g，加水100ml使溶解，即得。变色范围 pH3.2～4.4（红→黄）。甲基橙－二甲苯蓝FF混合指示液取甲基橙与二甲苯蓝FF各0.1g，加乙醇100ml使溶解，即得。邻二氮菲指示液取硫酸亚铁0.5g，加水100ml使溶解,加硫酸2滴与邻二氮菲0.5g, 摇匀，即得。本液应临用新制。茜素磺酸钠指示液取茜素磺酸钠0.1g，加水100ml使溶解，即得。变色范围 pH3.7～5.2（黄→紫）荧光黄指示液取荧光黄0.1g，加乙醇100ml使溶解，即得。钙黄绿素指示剂取钙黄绿素0.1g，加氯化钾10g，研磨均匀，即得。钙紫红素指示剂取钙紫红素0.1g，加无水硫酸钠10g,研磨均匀，即得。姜黄指示液取姜黄粉末20g，用冷水浸渍4次，每次100ml,除去水溶性物质后，残渣在100℃干燥，加乙醇100ml，浸渍数日，滤过，即得。结晶紫指示液取结晶紫0.5g，加冰醋酸100ml使溶解，即得。酚酞指示液取酚酞1g，加乙醇100ml使溶解，即得。变色范围 pH8.3～10.0（无色→红）。铬黑T指示剂取铬黑T 0.1g，加氯化钠10g，研磨均匀，即得。淀粉指示液取可溶性淀粉0.5g，加水5ml搅匀后，缓缓倾入100ml沸水中，随加随搅拌，继续煮沸2分钟，放冷，倾取上层清液，即得。本液应临用新制。硫酸铁铵指示液取硫酸铁铵8g，加水100ml使溶解，即得。溴酚蓝指示液取溴酚蓝0.1g，加0.05mol/L氢氧化钠溶液3.0ml使溶解，再加水稀释至200ml，即得。变色范围 pH2.8～4.6（黄→蓝绿）。溴麝香草酚蓝指示液取溴麝香草酚蓝0.1g，加0.05mol/L氢氧化钠溶液3.2ml使溶解，再加水稀释至200ml，即得。变色范围 pH6.0～7.6（黄→蓝）。麝香草酚酞指示液取麝香草酚酞0.1g，加乙醇100ml使溶解，即得。变色范围 pH9.3～10.5（无色→蓝）。麝香草酚蓝指示液取麝香草酚蓝0.1g，加0.05mol/L氢氧化钠溶液4.3ml使溶解，再加水稀释至200ml，即得。变色范围 pH1.2～2.8（红→黄）；pH8.0～9.6（黄→紫蓝）。说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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