This is to limit temperature rise and al low for contact settling.
这样的目的是为了限制温度升高并使触点稳定。
Seek to limit temperature rise to 1.5 degrees above preindustrial levels.
希望气温上升幅度能限制在工业化社会之前的基础之上1.5度。
The world needs to take steps to limit temperature rises to 2 degrees C…a bigger rise of 3 to 4 degrees C would parch continents, turning farmland into desert.
全球需要采取措施把气温升高限制在2摄氏度内……3到4摄氏度的气温升高将会使得一些大陆变得极为干旱,这将使原来的农田变为沙漠。
Obama will still chair a meeting of 17 nations, at which he will try to get a collective agreement to limit temperature rises to no more than 2C on pre-industrial levels.
奥巴马仍将主持17国会议,届时他将努力促成一个集体协议,使全球温度不比工业化前水平高出2摄氏度或以上。
Be comfortable product temperature's turn to be subzero 20 - (20) degree, the limit temperature is subzero 30 - (30) degree, is suitable to the need that most area winter USES.
该产品的舒适温度为零下20(- 20)度,极限温度为零下30(- 30)度,适合大部分地区冬季使用的需求。
So in the high temperature limit, the energy does change with temperature.
所以在高温极限下,能量随温度变化而变化。
But if we're in the low temperature limit, maybe we're in such low temperature that only the lowest possible state is occupied.
如果我们考虑低温极限,比如温度是如此的低以至于,只有能量最低的状态可以被占据。
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。
Three things limit plant growth: light, water, and temperature.
有三个要素会限制植物生长:阳光、温度和水。
Can we seal a comprehensive, equitable and ambitious deal in Copenhagen that will reduce greenhouse gas emissions and limit global temperature rise to a scientifically safe level?
我们能够在哥本哈根达成一个全面、公平而又雄心勃勃的协议,以降低温室气体排放和把全球气温上升限制在科学上认为安全的程度吗?
So the energy doesn't change with temperature in that low temperature limit.
所以能量不随温度改变,在低温极限。
I'm at the low temperature limit for the molecular vibrations of nitrogen or oxygen.
在低温极限下,对于氮或氧的分子振动。
Here's the limit of low temperature.
这是低温极限。
Then you have the same high temperature limit to it.
然后你对它有相同的高温极限。
So in the high temperature limit we can easily calculate things.
因此在高温极限下,我们可以很简单进行计算。
There's only one allowed possible state in the low temperature limit.
只有一种允许的可以被占据的态,在低温极限下。
That happened because in the limit of high temperature, then this exponent is really small, right?
它发生的原因是在高温极限下,这个指数就会很小,对吗?
And now for molecules, that limit isn't usually reached at room temperature.
现在对于分子,在室温下这个极限通常达不到。
So now let's look at the high temperature limit.
那么现在我们来看看高温极限。
But what we've found is that in the high temperature limit, we had the equipartition of energy result.
但是我们会发现在高温极限下,我们可以得到能量均分原理。
You immediately go to the high temperature limit.
你马上就达到高温极限。
高温极限。
So the high temperature limit, physically, is one that's simple to understand.
因此高温极限,从物理的角度是容易理解的。
Namely, the low temperature limit is zero.
也就是,低温极限是零。
Because of course I'm certainly in the high temperature limit.
因为当然我一定,是在高温极限。
In particular, what happens here in the limit of high temperature.
特别是,高温极限时会发生什么。
In the limit of low temperature, this is really big.
在低温极限下,这个很大。
And we've seen what the high temperature limit is.
高温极限下振动部分我们见过。
What was the low temperature limit of the heat capacity?
热容的低温极限是什么?
You can be in the high temperature limit. And easily are.
我们仍然可以用高温极限近似。
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