Most of the U.S.'s minuscule capacity is used to heat swimming pools.
大部分美国的小容量电池都用来加热游泳池了。
OK. Given that, then I want to talk a little bit further about the heat capacity.
好,在这样的假定之下,然后我想谈论更多的一点,关于热容的问题。
So now we can look at the heat capacity.
那么现在让我们来看看热容。
So it's easy to get into the high temperature limit, in that case. Where you basically see a temperature independent heat capacity.
所以它很容易到高温极限,在那种情况下,你基本上就能看到,不依赖于温度的热容。
So your heat capacity is zero.
所以你的热容是零。
So in that case, the high temperature limiting heat capacity is zero.
所以在这种情况下,高温极限的热容是零。
You can learn a tremendous amount about that by making measurements of the heat capacity.
你们能了解关于这些的极多的内容,通过测量热容。
So why should the heat capacity be zero?
那么为什么热容要为零?
Now, this looks kind of complicated for the heat capacity.
现在,这个热容看起来有一点复杂。
Today we're going to talk about heat capacity.
今天我们将要讨论热容的概念。
So that's the vibrational heat capacity of a solid.
那么那就是固体的振动热容。
Of course it's really the same result for the energy and the heat capacity.
当然对于能量,和热容的确是同样的结果。
Which means the heat capacity is zero.
那意味着热容为零。
And that means the heat capacity is zero.
那意味着热容等于零。
Because I do want to look at the heat capacity.
因为我想来看看热容。
So the heat capacity is zero again.
所以热容又是零。
What was the low temperature limit of the heat capacity?
热容的低温极限是什么?
And then the heat capacity, which is this often a very simple thing to measure, you change the temperature.
对于比热,这是一个比较简单的可测量,我们改变温度。
What's the heat capacity at high temperature?
高温时的热容是什么?
Why did the heat capacity go to zero at low temperature?
为什么热容在低温时是零?
But I want to talk a little bit about the heat capacity.
但我想谈论一点儿热容。
Well, what you find out is the heat capacity is zero.
好,你们发现热容是零。
And the heat capacity is a constant.
热容是常数。
With strong heat treatment and processing capacity.
具有较强热处理及加工能力。
The production capacity will be approximately 50 MW heat and 20MW electricity.
生产能力将可以达到大约50兆瓦的热量和20兆瓦的电量。
Very high heat sink capacity of the MEPCM was found by DSC method.
最后的DSC热分析表明了MEPCM具有很高的蓄热能力。
Most of the U. s. 's minuscule capacity is used to heat swimming pools.
大部分美国的小容量电池都用来加热游泳池了。
Urban power, water and heat supply capacity have been improving.
城市供电、水、热能力不断提高。
Heat capacity, thermal mass flow resistance is small, stop the heat, long continued heating.
热容量大,热质流动阻力小,停热后持续。
It is important breakthrough in the theoretical research of heat capacity of condensed material.
是百年来凝聚态物质热容理论研究中的重大突破。
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