本文为您带来热容的英文翻译，包括热容用英语怎么说，热容用英语怎么说，热容的英语造句，热容的英文原声例

本文为您带来热容的英文翻译，包括热容用英语怎么说，热容用英语怎么说，热容的英语造句，热容的英文原声例句，热容的相关英语短语等内容。

热容的英文翻译，热容的英语怎么说？

热容的英语网络释义

（三）液体重量燃烧速度与线速度关 热容（Heat Capacity） ：在没有相变化和化学变化的条件下，一定量物质温度每升高一度所需要的热量。

...阻热容电热耦合[gap=853]Keywords :forward bias safe operating area(FBSOA);thermal resistance;thermal capacitance;electrical-thermal coupling...

... Caliper shear burst厚度剪切爆裂（纸卷缺陷） Calorific capacity热容 Calorific efficiency热效应 ...

热容的汉英大词典

热容[rè róng]

• {物} heat capacity; thermal capacity
• 短语:
  • 热容比 heat capacity ratio;
  • 热容量 calorific capacity; heat capacity; thermal capacity;
  • 热容率 thermal capacitivity

热容的英语短语

热容的英文例句

首先是构成城市的材料的热容，通常由混凝土和沥青主导。

The first is the heat capacity of the materials that constitute the city, which is typically dominated by concrete and asphalt.

我们将不会具有恒定的压力热容量，而是具有恒定的体积热容量。

We're not going to have the constant pressure heat capacity, but the constant volume heat capacity.

在农村，材料的热容量要低得多，因为植被可以防止热量轻易地从地面流入或流出。

In the countryside materials have a significantly lower heat capacity because a vegetative blanket prevents heat from easily flowing into and out of the ground.

另一方面，感热的储存允许温度有一定的灵活性。此外，水和大多数岩石等安全物质具有较大的感热容。

The storage of sensible heat, on the other hand, allows flexibility as to temperature; in addition, safe substances like water and most rocks have large sensible heat capacities.

那么我们已经看到热容的极限情况。

So we've seen the heat capacity limiting cases.

现在，这个热容看起来有一点复杂。

Now, this looks kind of complicated for the heat capacity.

今天我们将要讨论热容的概念。

Today we're going to talk about heat capacity.

我们已经看到极限情况下的热容。

So we've seen the limiting cases for the heat capacity.

那么那就是固体的振动热容。

So that's the vibrational heat capacity of a solid.

所以在这种情况下，高温极限的热容是零。

So in that case, the high temperature limiting heat capacity is zero.

那么为什么热容要为零？

So why should the heat capacity be zero?

当然对于能量，和热容的确是同样的结果。

Of course it's really the same result for the energy and the heat capacity.

热容的低温极限是什么？

What was the low temperature limit of the heat capacity?

所以热容的极限值是零，能量本身也是零。

So you get the zero limiting value for the heat capacity, and the energy itself is also zero.

但我想谈论一点儿热容。

But I want to talk a little bit about the heat capacity.

好，你们发现热容是零。

Well, what you find out is the heat capacity is zero.

那意味着热容等于零。

And that means the heat capacity is zero.

因为我想来看看热容。

Because I do want to look at the heat capacity.

高温时的热容是什么？

What's the heat capacity at high temperature?

热容是怎样的,在不同极限情况下。

What the heat capacities would be in various limiting cases.

热容是du/dT，它等于零是，因为这是。

kT The heat capacity is du/dT. It's zero because, here's kT.

所以你的热容是零。

So your heat capacity is zero.

那意味着热容为零。

Which means the heat capacity is zero.

那么现在让我们来看看热容。

So now we can look at the heat capacity.

因为你在那得到摩尔数，如果你问热容有多大？

Because you've got a factor of the number of moles in there. If you ask how big is the heat capacity?

所以热容又是零。

So the heat capacity is zero again.

特别地，我想谈谈热容，和我们已经看到的能量。

And in particular, I want to talk about both the heat capacity and the energy that we've seen.

为什么热容在低温时是零？

Why did the heat capacity go to zero at low temperature?

你们能了解关于这些的极多的内容,通过测量热容。

You can learn a tremendous amount about that by making measurements of the heat capacity.

如果有有限数目的可能的状态，高温时的热容是什么？

What's the heat capacity at high temperature, if there's a finite number of states available?

热容的原声例句

We're not going to have the constant pressure heat capacity, we're going to have the constant volume heat capacity, right.

这里出现的,不是等压热容,而是等体热容。

So, we do an integral over a path, dT for the heat capacity along that path, dT.

因此，我们沿着路径做一个积分，热容。

It's related to the heat capacity, the constant volume of heat capacity and something you could measure.

它联系了热能，恒容热容和一些,我们能够测量的物理量。

Something I can measure and I can tabulate, and when I turn my dT knob here I know what's going to happen to the enthalpy.

----热容，我们可以用实验，测出热容并成表,当我知道这里的变量。

You calculate how much heat is released in the reaction. And then what's going to matter is what's the heat capacity of the whole, of the calorimeter?

就是计算在反应中,放出了多少热量,接下来关键的是,整个量热计的热容是多少？

I didn't even need to know that heat capacity of the product, right. Because it's effect the thermal mass of the product is negligible compared to the thermal mass of the calorimeter.

我甚至不需要知道生成物的,热容是多少，因为生成物的,热质量的作用相比于,量热计的热质量是可以忽略的。

And it's for that whole unit that you've got some heat capacity. How much heat does it take the warm the entire thing up or the insides of the thing up by a degree? It's that number right.

由这个单位你能知道,一些热容的信息，要让这整个装置,或里面放置的东西,升温一度需要多少热量？

Now, I know how to relate the heat flow to temperature change, through the heat capacity.

现在我知道怎样把能量的流动,和温度的变化联系起来，通过热容。

So, let's talk about heat capacity.

好的，让给我们来讨论热容。

So if I worry about energy I have a pretty good chance of extracting out these heat capacities, right, and I don't have to worry about exactly which path and I can really mix things up.

而能量与热容有密切的关系,从能量就可以就算出这两个热容，我不需要考虑到底是哪一条路径,可以随意计算。

for instance, for the thermos with the coffee in if you place the boundary in the inside wall of the glass or the outside wall of the glass and the inside of the thermos, that makes a difference; different heat capacity, etcetera.

比如说，对于装咖啡的热水瓶来说,你把边界设置在瓶胆的内壁上,或者设置在瓶胆外壁上,或设在热水瓶里面，情况都是不一样的;,有不同的热容等等。

This one turns out to be the heat capacity, and this one turns out to be something that we measure in the Joule-free expansion.

其实，这就是热容，这是焦耳自由膨胀实验中,我们要测量的物理量。

Heat capacity relates the amount of heat that you add to the system to the change in temperature, and this is the relationship.

热容联系起给系统提供的,热量和温度的变化，关系式是这样的：

Ordinary heat capacities are in Joule's per Kelvin mole, not kilojoules, right.

一般热容的单位是焦耳每摩,而不是千焦。

Cp, I forgot to put my little bar on top here because it's per mole Cp dT that's my dq here.

上面的Cv我忘记加上横线了,因为它也是摩尔热容。

We have discovered that this partial derivative that appears in the definition, the abstract definition of the differential for internal energy, is just equal to the constant volume heat capacity.

我们还发现,这个偏微分出现在了，内能的偏微分,定义式中，它也就是热容。

Today we're going to talk about heat capacity.

今天我们将要讨论热容的概念。

Heat capacity depends on path.

热容是与路径有关的。

We can measure the heat capacity at constant volume, and now we have another term, and if we can figure out how to measure it, we'll have a complete form for this differential du which will enable us to calculate du for any process.

我们能够测量恒定体积下的热容，这里我们有另一项，如果能够知道怎么测量它，问我们就有了这个完整的微分式,就能够对任何过程计算。

It's just how much heat is involved when we change the temperature. Now, the products have some heat capacity associated with them right, it takes a certain amount of heat if we make their temperature change, to either put it in or take it away, depending on which direction the temperature is changing.

问题就是当我们改变温度时,有多少热量发生了转移,生成物具有一定的热容,如果我们改变,它们的温度，就要输入或,提取一定的热量,这取决于温度改变的方向。

Cp And delta T is given by the heat, which has to do with how much of the candle burnt, divided by the constant pressure heat capacity.

T等于热量q除以恒定的等压热容，其中热量与，蜡烛燃烧的多少相关。

Over here, we have dq=Cp dT, the heat, the proportionality between heat - and temperature rise is given by this, the constant pressure heat capacity.

这里我有dq=CpdT，这是热量，这是联系热量,和温度变化的系数，恒压热容。

And that generally is just given by the heat capacity the calorimeter times delta T, right.. Because the heat capacity of the calorimeter just like this thing is not strongly temperature dependent, OK.

一般它就由量热计的热容,乘以ΔT给出，因为，量热计的热容,就像这张桌子一样,并不强烈依赖于温度。

热容的网络释义

热容 热容的标准定义是：“当一系统由于加给一微小的热量dQ而温度升高dT时，dQ/dT 这个量即是该系统的热容。”（GB3102.4-93），通常以符号C表示，单位J/K。 作为某种物质的物理性质之一，该物质的比热容是指当单位质量该物质吸收或放出热量引起温度升高或降低时，温度每升高1K所吸收的热量或每降低1K所放出的热量，通常以符号Cm表示，单位J/kg·K。

以上关于热容的英语翻译来自英汉大词典，希望对您学习热容的英语有帮助。