Well, then, we could just use that for our equation of state.
然后我们就可以把这些数据,作为我们的状态方程。
You know how pressure changes with temperature at constant volume if you know the equation of state.
如果你知道状态方程,知道在体积恒定的时压强如何随着温度变化。
Again, if we know the equation of state, we know all this stuff.
如果我们知道状态方程,我们就可以知道所有的物理量。
And again, this is something that comes from an equation of state.
我们再一次发现,这个可以从状态方程中得出。
So again, we can measure equation of state data.
我们可以通过测量得到状态方程的数据。
So from measured equation of state data, or from a model like the ideal gas or the van der Waal's gas or another equation of state you know this.
所以,从测量的到的状态方程的数据,或者从状态方程模型比如理想气体方程,范德·瓦尔斯方程或者其他状态方程,我们就可以知道。
Of course, that's assuming we know the equation of state.
这意味着我们假定,我们知道其状态方程。
So, so far we don't have a way to just write off, relate them to equation of state data.
到目前为止我们还没有办法,写出他们和状态方程之间的关系。
That's what the equation of state tells us.
这是状态方程告诉我们的。
Let's try it with a different equation of state, that isn't quite as simple as the ideal gas case.
考虑一个不同的状态方程,这状态方程不像理想气体状态方程那么简单。
So let's take our one model that we keep going back to Equation of state, and just see how it works.
我们回到经常使用的理想气体模型,或者说状态方程。
Because this is what comes directly out of an equation of state, right?
因为它,可以直接从状态方程中得到?
Just like u, we'd like to be able to express it in a way that allows us to calculate what happens only from equation of state data.
就像内能u一样,我们希望能够利用状态方程的数据,计算出其表达式,这些表达式能方便我们说出即将发生的过程。
For real gases. This is an equation of state for an ideal gases.
我们需要描述实际气体,的状态方程。
And then we'll have an equation that will compare the chemical potential of the mixture under the same conditions as the chemical potential of a in the pure state.
那么我们就得到了一个式子,用它可以来比较混合态的化学势,和相同条件下,纯态时的化学势。
The State-Space method is applied to compute the differential equation of the elastodynamics of mechanism.
应用基于状态空间法的闭式算法对机构弹性动力学微分方程进行求解。
Meanwhile, as some states can not be estimated or have poor estimation, the simplified state equation employed in the alignment process will cause model parameter uncertainty.
同时,由于一些状态不可估计或估计效果很差,采用简化状态方程进行对准,存在着模型参数不确定性。
This paper presents a computer simulation model of the cardiovascular circulation system, which describes the blood flow dynamic law in the cardiovascular system by the state equation.
建立一种心血管循环系统的计算机仿真模型,即描述心血管循环系统内血流动力学变量变化规律的状态方程。
Secondly, Aiming at classical mathematics model of Multi-machine System, state equation and transient energy function are putted forward in the center of angle.
针对多机系统的经典数学模型,给出多机系统在角度中心下的状态空间方程及其暂态能量函数。
One of the algorithms is to linearized the state equation based on the optimal estimation.
其中一种方法是基于当前最优估计值对状态方程进行线性化。
But due to the compressibility of gas significantly higher than fluid, the state equation of gas is different from fluid.
但由于气体的可压缩性明显大于液体,因而气体的状态方程与液体完全不同。
Then the equation of state for binary system is developed.
由配分函数求出二元系统的物态方程。
The concept of the structural performance safety index is put forward and its calculation method is derived based on the structural deformation limit state equation.
提出了结构性能安全指数的概念,并以结构的变形极限状态方程为基础得到了结构设计性能安全指数的计算方法和结构性能等级的划分标准。
The study of the nuclear property includes the Equation of state, the phase structure, the medium effect ect.
对核物质性质的研究包括核物质的状态方程、相结构、介质效应等方面。
On the basis of nodal admittance equation and the state of compensating device while fault occurs, a fault location algorithm suited to series compensation transmission lines is proposed.
作者基于传输线的节点导纳方程考虑了故障时串补装置的状态,提出了一种适用于串补线路的故障定位算法。
An equation of state relates the pressure, temperature, and density of the gas.
一个状态方程有关的压力,温度和气体密度。
Based on reliability theory, a limit state equation for gate faceplate reliability analysis was founded.
基于可靠性原理,建立了闸门面板可靠度分析的极限状态方程。
Based on state equation for structural dynamic response, the iteration computing scheme is established.
基于结构动力响应分析的状态方程,建立了迭代计算格式。
The isospin dependence of momentum_dependent interaction is thus important for studying accurately the equation of state of isospin asymmetry nuclear matter.
所以同位旋依赖的动量相关作用的研究对于定量的研究同位旋非对称核物质状态方程是重要的。
At higher temperatures the equation of state becomes better and better approximated by the "perfect gas" law.
在更高的温度区内,状态方程越来越接近于“理想气体”定律。
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