能斯特方程

在CO2气体体积浓度为（200-2000）×10-6范围内，EMF值与浓度的log值呈现良好的线性关系，这与能斯特方程相符。

In the CO2 volumetric ratio concentration range from 200 to 2000 × 10-6 , the linear of EMF to the logarithm of concentration is excellent , as fits well with the Nernst equation .

在pH为0.5～12.0的范围内，对H+的响应符合能斯特方程，其斜率为55.5mV·pH-1，电极的响应时间为4min。

Its response to H + conforms to Nernst equation in the range of pH 0.5 ~ 12.0 , with a slope of 55.5 mV · pH - 1 . The electrodes reveal a response time of 4 min.

氢气压力与电位的关系符合能斯特方程；

The relation between hydrogen pressure and electrode potential conforms to Nernst equation .

基于普通的能斯特方程，建立了单原子层平衡电势的热力学模型。

Based on the general Nernst equation , thermodynamics model of the submonolayer equilibrium potential was set up .

界面势的大小决定于电子或离子间的交换，服从能斯特方程。

The magnitude of the interface potentials depends on the interchange of electrons or ions , and follows the Nernst equation .

其次，利用能斯特方程，求解电池开路电压（近似等于电池电动势），研究其理论电池特性，并分析各个因素对电池电势的影响。

Secondly , use Nernst equation to get open circuit voltage for battery ( approximate equivalent battery EMF ), on the theory of batteries and battery of various factors on the potential impact .