我们把这个代入然后写出反应速率。
我们要来看这个反应速率。
那么我们把这代入,我们写我们的反应速率。
And so we plug this into the, we write our rate of reaction.
概念就是反应速率。
掌握反应速率常数与温度的关系。
To master the relation of reaction rate constant and temperature.
研究了影响反应速率的最佳条件。
The optimum conditions influencing the reaction rate were studied.
遗憾的是,反应速率却不能这样。
最后探讨了固化沉淀的反应速率。
And the reaction rate for the precipitate solidification is also discussed.
反应速率受试样中氧浓度梯度的限制。
The reaction rate is limited by the concentration gradient of oxygen in the sample.
反应速率随照射光强度的增大而增大。
The rate of reaction increases with radiation strength of the light sources.
这个反应速率。
反应速率受试样中氧浓度梯度的限制。
旋涡加速了未反应区的化学反应速率。
反应速率受试样中氧浓度梯度的限制。
总能量如何影响反应速率?
反应速率服从抛物线定律。
基于我们知道反应速率。
那么,第一个是决定反应速率的步骤,A到。
B So, the rate determining step is the first one, a goes to B.
反应温度愈高,晶核生长的反应速率愈快。
The gasification reaction rate increases with an increasing of reaction gas partial pressure.
对实验数据进行拟合,得到该反应速率方程。
According to the experimental data, the rate equation was deduced.
测定了催化剂包的有效因子和表观反应速率常数。
The effective factor and the apparent reaction rate constant of catalyst-capsule were determined.
原子的扩散传质速率是控制总反应速率的关键因素。
The rate of N atom diffusion is the key factor of controlling whole nitridation rate.
反应速率的实际测定和计算值平均误差为4 - 38 %。
The average error of reaction rate between calculated and measured value is 4.38 %.
紫外光氧化阿特拉津主要降解途径是脱氯反应,反应速率很快。
The primary degradation pathway is dechlorination. The reaction rate is high.
任何一个数都可以用,来定义反应的速率。
And any of those can be used to define the rate of reaction.
让我们从这个反应的速率开始。
结果表明,整个反应的速率常数受温度的影响较为复杂。
The results show that the temperature dependence of rate constants is complicated.
结果表明,反应温度是影响水解速率的主要因素。
The results showed that hydrolysis temperature is a crucial factor to control the reaction rate.
怎样去评价反应环境对速率常数的影响。
How to assess the effect of the reaction environment upon rate constant.
研究了四钼酸铵(AQM )晶体生长速率、反应历程和控制性步骤。
The rate of crystal growth, reaction mechanism and control step of AQM were studied.
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