使红外辐射强度的计算量大大减少。
It can simplify the calculating for strength of infrared radiance.
该检测仪将红外辐射强度转化为电压信号,实现对甲烷浓度的测量。
The IR-absorbing methane detecting instrument is designed by converting IR radiation to voltage signal, so the gas concentration is calculated.
一般来说,目标的红外辐射强度方向图是用于目标识别的重要特征之一。
In general, the target direction infrared radiation intensity chart is one of the important characteristics for target recognition.
目标的红外辐射强度是由目标表面温度和目标表面发射率两个因素决定的。
The IR radiation intensity of target depends on the temperature and the IR emissivity of it.
结论:冠心病患者太白穴的某些波段处红外辐射强度变化承载心脏的病理信息。
Conclusion:There is pathological information in the infrared radiation spectrum of Taibai(Sp3) in patient with coronary heart disease.
详细阐述了以辐射源为基准,基于虚拟仪器的物体红外辐射强度测量系统的设计。
The design of measuring system based on virtual instrument for object infrared radiation intensity is described in accordance with the radiation source.
引射混合对总体红外辐射强度抑制约85%;在此基础上进行隔热遮挡可以再抑制10%。
Ambient air pumping-mixing contributes about 85% suppression for the total target infrared radiation intensity and heat shelter-insulation contributes about 10% suppression again.
通过实验确定了镁/硝酸钾药剂的配比对燃烧速度、近红外辐射强度和可见光强度的影响。
The influence of the ratio of composition Mg/KNO 3 on the burning rate, near-infrared radiation intensity and visible light intensity is determined by experiment in this paper.
最后对国外某型空间目标的表面温度场分布和红外辐射强度分布进行了数值计算并加以分析。
Finally, the surface temperature distribution and infrared radiation intensity of a given space target are calculated numerically and analyzed.
得出了二元喷管的红外辐射强度的空间分布,并且将二元喷管和轴对称喷管的红外辐射强度进行了比较。
The spatial distributions of the infrared radiation intensity of 2-D nozzles have been obtained, and compared with that of the axially symmetric nozzles.
结果表明:该测量方法能够有效地获得排气系统的中红外光谱辐射强度,具有工程实用价值。
The results show that Mid-IR spectral radiant intensity of exhaust system could be measured effectively by this method, thus offering a high value of engineering practicability.
将总红外辐射分解为自发辐射和反射辐射两部分,分别给出了计算自发辐射强度和反射辐射强度的计算式。
The total infrared radiation was divided into the spontaneous emission and the reflection radiation, and the formulas for spontaneous and reflection radiant intensity were given respectively.
与文献中的结果进行比较,发现各种条件下的电晕放电的可见光区辐射强度一般都比较弱,而紫外区与红外区辐射的强弱则与具体的放电条件有关。
Compared with the results in the literature, it was found that the visible radiation intensity is usually weak, while ultraviolet and infrared radiation intensities depend on the discharge conditions.
相同功率不同型号的红外线的辐射强度与波长的不同而强度不同。
The same power of different types of infrared radiation intensity and different wavelengths of varying intensity.
相同功率不同型号的红外线的辐射强度与波长的不同而强度不同。
The same power of different types of infrared radiation intensity and different wavelengths of varying intensity.
应用推荐