visible radiation
英 [ˈvɪzəbl ˌreɪdiˈeɪʃn]
美 [ˈvɪzəbl ˌreɪdiˈeɪʃn]
网络 可见光辐射; 可见辐射; 可见光线; 辐射; 可见辐射光
英英释义
noun
- (physics) electromagnetic radiation that can produce a visual sensation
- the light was filtered through a soft glass window
双语例句
- When using the static chamber method, the difference of isoprene emission flux caused by the differences of solar visible radiation, temperature, humidity and water vapor content between the inside and outside of the chamber should be considered, especially for the difference of solar visible radiation.
在使用箱方法时,应该考虑箱内外辐射、温湿度、水汽含量之差引起的排放通量的差别,特别是箱内外辐射之差所引起排放通量的差别。 - Influence of relative humidity on absorption of visible radiation of aerosol
相对湿度对大气气溶胶可见辐射吸收的影响 - The emissions of isoprene,α-pinene and β-pinene from soil are very small, with the ratio of 0.2%, 0,3.0% to a fixed ACSP at similar solar visible radiation and leaf temperature, respectively.
土壤异戊二烯、α蒎烯、β蒎烯等的排放很小,分别占相近可见光辐射和温度条件下固定羊草样地排放的0.2%、0、3.0%。 - Measuring nonequilibrium visible radiation of spherical steel model in ballistic range
弹道靶中球模型非平衡可见光辐射的测量 - For annual average, visible radiation accounts for 48%.
年平均可见辐射可达48%。 - Results show that discussed in this topic Based on infrared/ visible radiation temperature measuring system technology with high temperature accuracy and response speed meet the requirements of practical applications.
本文最后通过实验测试给出了该辐射测温系统的各项性能参数,结果证明本课题所论述的基于红外/可见光技术的辐射测温系统具有较高的测温精度和响应速度,符合实际应用的要求。 - Absorption spectrum A plot of the absorbance by a substance of radiation at different wavelengths, usually of ultraviolet, visible, of infrared radiation.
吸收光谱:记录物质对不同波长的光,通常是紫外光、可见光或红外光吸收情况的图。 - Environmentally Friendly and Rapid Ambient Temperature Aqueous RAFT Polymerization under Visible Light Radiation
环境友好与快速高效的可见光活化室温水溶液RAFT聚合 - A measure of the visible electromagnetic radiation.
测量可见电磁辐射的单位。 - 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.
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。