And you already saw last time there was this relationship between the temperature and volume changes along an adiabatic path.
是条绝热路径,而上次你已经看到,沿着绝热路径温度和体积,的变化有这个关系。
So now we have a relationship between the ratios of these volumes that are reached during these adiabatic paths.
现在我们有了一个联系,这些绝热过程中,体积比的关系式。
Now, this is a reversible adiabatic path, so there's a relationship that I'm sure you'll remember.
现在是可逆绝热过程,因此这里有一个关系式,我相信你们还记得。
Using the relationship between Cp and T and the thermal decomposition parameters, adiabatic time-to-explosion of ATO was also evaluated to be 408.
根据热容关系式及其热分解参数估算其绝热至爆时间为408。
Using the relationship between Cp and T and the thermal decomposition parameters, adiabatic time-to-explosion of ATO was also evaluated to be 408.
根据热容关系式及其热分解参数估算其绝热至爆时间为408。
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