It is reported that cancer can be controlled at a temperature lower than 100℃ below zero.
据报道,在低于零下100℃的温度下,癌症可以得到控制。
The average temperature on Mars is 80 degrees below zero, and can get a lot colder at times.
火星上的平均温度是零下80度,有时还会更冷。
Absolute zero (- 460 degrees F) is the total absence of heat; all matter becomes inert and incapable of reaction at that temperature.
绝对零度(460华师摄氏度)是完全不存在热量的状态;所有物质变得惰性,而且在这样的温度下它们也无法发生化学反应。
Absolute zero (-460? F) is the total absence of heat; and all matter becomes inert and incapable of reacting at that temperature.
绝对零度(摄氏零下273度)时完全没有热能的存在。在这个温度时,所有物体分子都呈现静止状态,不会发生任何反应。
So if you had a high temperature, this a small compared to b. If you're negative which means that dT/dp at constant H is less than zero.
高于反转温度,这一项相比于b很小,意味着H恒定时,偏T偏p小于零。
So du/dT isn't going to be zero in the high temperature limit, in this case. But it stops changing at some point.
所以du/dT在这样的高温极限下不会是零,但它在某一点就不再变化。
We looked at pressure change before, actually, in discussing the third law, the fact that the entropy goes to zero as the absolute temperature goes to zero for a pure, perfect crystal.
在讨论热力学第三定律的时候,我们讨论过压强变化,即对于纯净的完美晶体,随着温度下降到绝对零度熵也变成零。
Unfortunately, the standard definition of a second relies on what the atom does at a temperature of absolute zero. Real clocks need to run at room temperature, where the shell of electrons puffs up.
遗憾的是,一秒钟的标准定义依赖于原子在绝对零度的条件,而实际的时钟需要在室温下运行,室温条件下电子壳层膨胀了。
Why did the heat capacity go to zero at low temperature?
为什么热容在低温时是零?
So we know it's got to be zero at the low temperature limit.
它应该是零,我们知道低温极限下。
At night, the temperature stays above zero in most parts of the southeast and Midlands.
夜晚,东南部和中部的大部分地区的温度停留零度以上。
No ifs and buts, at absolute zero temperature, this is exactly 9, 192, 631, 770 hertz.
这个频率不存在“如果和但是”,绝对零度的条件下,9192631770赫兹,不会有任何偏差。
The temperature will stay above zero in the day time, but at night it will fall below zero again.
白天气温将保持在零度以上,但在晚上又将降到零度以下。
At night the temperature drops below zero.
气温在夜里降到零度以下。
The temperature remains at zero degrees.
温度保持在零度。
Secondly, the equation of state of neutron matter at zero temperature is studied.
其次,我们研究了零温时中子星物质的物态方程。
It turns out that both of the infrared divergence at the zero and finite temperature can be cancelled by the identical Feynman diagram of virtual processes.
结果表明零温场论中的红外发散和由温度效应引起的红外发散可以用描写虚过程的费曼图同时消除。
We will use the relevant hydrodynamics model and the state equations at finite densities to investigate the QGP phase transition in the zero temperature and finite density.
本文采用相对论流体力学模型和有限密度下的状态方程,考察在另一种情形,即在零温有限密度下q GP相变的演化图像,并对结果进行了分析和讨论。
Finally, we apply the theory to study the quantum phase transitions of one-dimensional anisotropic XY quantum spin chain in a transverse field at zero temperature.
最后我们采用李—杨零点方法对一维横场各向异性XY模型在零温下的量子相变作了较为系统的研究。
The quantum phase transition (QPT) occurs at zero temperature when the external parameters of some interacting many-body systems change to reach the critical values.
在许多多体量子系统中,随着系统某些外部参数达到它的临界值,在零温情况下量子系统会发生量子相变。
At the appropriate temperature conditions, when water phosphorus concentration is low or zero, APA role of phosphorus from sediment in the water release for the use of algal growth and reproduction.
在适宜温度条件下,当水体中磷浓度较低或为零时,APA作用使得底泥中的磷向水体中释放,供藻类生长繁殖利用。
In addition, since the source may be near zero Kelvin while the meter is at 300k, there is a very large temperature gradient.
此外,由于源可能处在接近0K的温度之下,而电压表则处在300k的温度之下,这就出现了很大的温度梯度。
The weather forecast says there'll be a cold spell tomorrow, windy, and the temperature will fall to 7 below zero at the highest.
天气预报说明天有寒流,刮风,气温会降到最高气温为零下7度。
The confinement behavior at finite temperatures is also investigated and shown that color confinement at zero temperature can be melted away at high temperature.
最后利用有限温度场论,讨论了在高温度下夸克禁闭解除的可能性,并计算出了禁闭解除的可能的转变温度。
What we define as zero is the enthalpy of every element in its natural state at room temperature and ambient pressure.
我们将零点定义为每种元素,在室温和正常大气压下,在其自然状态下的焓。
Northeast China fine to cloudy, daytime temperature will above zero in, but at night and will drop below zero.
东北地区晴到多云,白天气温将在零度以上,但晚上又会降到零度以下。
But we've defined the enthalpy of those elements in their stable state at room temperature and pressure as zero, right?
但我们已经定义了这些,元素处于它们室温和常压下,最稳定的状态时的焓为零,对吧?
But we've defined the enthalpy of those elements in their stable state at room temperature and pressure as zero, right?
但我们已经定义了这些,元素处于它们室温和常压下,最稳定的状态时的焓为零,对吧?
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