我们把这个代入然后写出反应速率。
当然,我们不光要研究一个反应会不会发生,反应速率多块也是很重要的研究问题。
Of course, we'll investigate not just whether the reaction will occur, but how fast it occurs, which is really important.
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.
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.
旋涡加速了未反应区的化学反应速率。
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。
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。
线性回归得出化学反应速率常数表观值。
The apparent reaction rate constant can be obtained by linear regression.
气化反应速率随着碳转化率的增加而降低。
And the gasification reaction rate decreases with an increasing of carbon conversion.
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.
水汽明显加快反应速率。
化学也使用演算在确定反应速率和放射性衰变。
Chemistry also USES calculus in determining reaction rates and radioactive decay.
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.
溶液中的静电库仑作用对液相中离子间反应速率的影响。
Solution of the electrostatic Coulomb interaction between ions of the liquid phase reaction rate.
这对于求反应速率常数和估计反应的活化能都具有重要意义。
This is very significant to both determining the rate constant and estimating the activation energy.
石油焦的比气化反应速率与有效比表面积有着较好的线性关系;
There is a good linear relation between the specific gasification rate and the specific surface area.
它有锆或氢的反应速率,它发生的位置,很明显是在同样位置,百分比反应。
It has zirconium/hydrogen reaction rate and where it occurred, obviously about the same place. The percentage reaction.
研究结果表明:随着反应温度和反应时间的增加,反应速率加快。
Results showed that, with increasing temperature and time the rate of reactions rose.
定量地计算了可燃物浓度、环境温度与反应速率、反应时间的关系;
The influence of fuel gases concentration and ambient temperature on combustion velocity and time are studied.
在固定床内随着温度的提高,反应速率增大,并能达到较高的转化率。
It is found that the rate increases with the rise of temperature and high conversion rate can be achieved.
在固定床内随着温度的提高,反应速率增大,并能达到较高的转化率。
It is found that the rate increases with the rise of temperature and high conversion rate can be achieved.
应用推荐