1.
Einstein photochemical equivalence law
爱因斯坦光化当量定律
2.
Einstein's law of photochemical equivalence
光化当量的爱因斯坦定律
3.
The conservation of energy is also utilized in the interpretation of spectroscopy.
能量守恒定律还用于光谱分析。
4.
The Application of Infrared Spectroscopy and Chemometrics to Qualitation and Quantitative Study Models of Codonopsis Pilosulae and Angelicae Sinensis
红外光谱技术及化学计量学在党参、当归定性定量模型研究中的应用
5.
INVESTIGATION ON THE SPECTROPHOTOMETRIC DETERMINATION OF TOTAL PHOSPHORUS IN NATURE WATER BY PHOTOCATALYTIC OXIDATION;
光催化氧化-分光光度法测定水体中的痕量总磷
6.
Spectrophotometric Determination of Rhenium in Pt Re Catalysts
分光光度法测定铂-铼催化剂中铼含量
7.
Determination of Bisphenol A by Catalytic Kinetic Spectrophotometry
催化动力学分光光度法测定痕量双酚A
8.
Determination of trace mercury(Ⅱ) by catalytic spectrophotometry
催化动力学分光光度法测定微量的汞
9.
Determination of Micro-quantities of Sulfide Using Diphenylthiocarbazone-CTMAB Mercurimetric Photometric Titration;
双硫腙-CTMAB汞量法光度滴定微量硫化物
10.
The Law of Thermodynamics explains the transfer of heat.
热力学定律解释了热量转化的原理。
11.
Financial Accounting and Conservation of Energy and Transformed Law;
财务会计中的“能量守恒和转化定律”
12.
determination of the mass concentration of nitrogen oxides (chemiluminescence method)
氧化氮含量浓度的测定-化学发光法
13.
Determination of trace palladium in geochemical exploration samples by catalytic spectrophotometry
催化光度法测定化探样品中的痕量钯
14.
committed dose equivalent
【核】约定剂量当量
15.
The concept of energy leads to the principle of the conservation of energy, which unifies a wide range of phenomena in the physical science.
对能量的理解导致了能量守恒定律,该定律统一了物理科学中相当众多的现象。
16.
QUANTITATIVE ANALYSIS ON THE THICKNESS VARIATION OF NO 2 1 COAL SEAM IN CHAOHUA MINE FIELD
超化井田二1煤层厚度变化规律定量研究
17.
determination of the mass concentration of ozone (chemiluminescence method)
臭氧质量浓度测定-化学发光法
18.
Determination of trace molybdenum in stone coal cinder by catalytic oxidation based fading spectrophotometry
催化退色光度法测定石煤渣中痕量钼