The results show that the specific heat capacity at constant volume in a fractal medium is always less than that in a homogenous medium.
结果表明,同一材料的分形介质定容比热恒小于均匀介质的定容比热。
The test data show that for loess with constant water content, if the density is increased, the coefficient of thermal conductivity and specific volume heat both are increased.
实验结果揭示出,在含水量一定的情况下,导热系数和比热容随密度增大而增大;在密度相同的情况下,导热系数和比热容亦随含水量的增大而增大。
Several linear regression equations of the specific heat at constant volume for ideal gas based on MATLAB were proposed and proved by mathematical statistics, with maximum relative error less than 5%.
利用MATLAB的数值回归分析功能,得到了几种常见理想气体定容比热容与温度的线性回归公式,数理统计分析的结果证明了这些回归公式的合理性,回归公式的最大相对误差低于5%。
Several linear regression equations of the specific heat at constant volume for ideal gas based on MATLAB were proposed and proved by mathematical statistics, with maximum relative error less than 5%.
利用MATLAB的数值回归分析功能,得到了几种常见理想气体定容比热容与温度的线性回归公式,数理统计分析的结果证明了这些回归公式的合理性,回归公式的最大相对误差低于5%。
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