本文为您带来负能的英文翻译，包括负能用英语怎么说，负能用英语怎么说，负能的英语造句，负能的英文原声例

本文为您带来负能的英文翻译，包括负能用英语怎么说，负能用英语怎么说，负能的英语造句，负能的英文原声例句，负能的相关英语短语等内容。

负能的英文翻译，负能的英语怎么说？

负能的英语网络释义

负能的汉英大词典

负能的英语短语

负能的英文例句

我们证明了负能密度满足两类量子不等式。

It is demonstrated that the negative energy densities satisfy two quantum inequalities.

这两种方法在顾及负能态贡献上看似完全对立。

The two methods seem contradictory concerning the way through which the negative-energy states contribute.

流束存在碰撞时，负能性质改变为负耗散性质。

When the stream is collisional, the negative energy nature changes to negative dissipative nature.

在相对论无规位相近似中，有两种顾及负能态贡献的方法。

There are two methods to take account of the contribution of negative energy states in the relativistic random phase approximation.

首先，讨论任意两个多电子-正电子态构成的叠加态的负能密度。

Firstly, we will examine the negative energy densities for states that are the superposition of two multi-electron-positron states.

负能谱的存在暴露了一些仅能在微粒论中才得以克服的概念上的困难。

The existence of a negative energy spectrum presents some conceptual problems which can only be overcome in a many particle formalism.

具体分析了负能谱系统中“热”的自发传输规律和“热-功”转化规律。

The law of heat spontaneous transfer and the law of heat-work conversion are correspondence between positive energy spectrum(PES) and negative energy spectrum(NES).

然后，研究了在四维平直时空下三个单粒子态构成的量子态的负能密度。

Secondly, we investigate the energy density produced by a state vector which is the superposition of three single electron states in the Dirac field in the four-dimensional Minkowski spacetime.

但它在那些情况下并不成为问题，因为一个电子永远不可能跃迁到任何一个负能态之中。

But it didn't matter under those conditions because an electron could then never jump into one of the states of negative energy.

相互作用有可能引起粒子态转化为负能态，因此在其框架内人们不能够指望物质是稳定的。

Interaction may cause transitions to negative energy states, so that there is no hope for a stability of matter within that framework.

如果你把这个时间机器塞到有限空间内，想要让它动起来，得用到没人能制造出的负能量才行。

If you try to squeeze this time machine into finite space, you'd need negative energy, something nobody knows how to create, to make it work.

然而，我们可以想象在某些特定的条件下在负能态上可能会出现空穴，而我们必须对此作出解释。

However, one would expect that under certain conditions there might be a hole in the negative energy states and one had to get an interpretation for these holes.

在任何相对性理论中(负能态)这个困难都存在着，它甚至早在洛伦兹的旧经典理论中就已经存在。

In any relativistic theory this difficulty occurs, even in the old classical theory of Lorentz.

从负能空间电荷波与电磁波耦合的物理图像出发推导了喇曼散射模式自由电子激光器耦合频率的解析表达式。

Analytical expressions of coupling frequencies of Raman free-electron lasers are deduced based on the physical image of the coupling between negative-energy space-charge wave and EM wave.

简述转炉实现负能炼钢的工艺流程，介绍武钢炼钢总厂三分厂实现转炉负能炼钢的实际情况及其所采取的措施。

The present paper briefly introduces the principle of converter steelmaking with minus energy consumption and introduces the actual results of the new process in No.

但是，电子亲和能既可以是负的，也可以是正的。

Electron affinity, however, can be either negative or it can be positive.

这不仅因为瑜伽能通过冥想让人放松，还因为德克萨斯大学的研究发现瑜伽能帮助减缓癌症治疗中的负作用。

Not only does yoga promote relaxation through meditation; research conducted by the University of Texas has revealed it can help alleviate the negative side effects of cancer treatment.

我们知道结合能，总是负的，电离能总是正的。

We know that binding energy is always negative, ionization energy is always positive.

看来大部人都想到了，如果你翻翻讲义的话，它们的电子亲和能确实是负的。

So most of you recognize, if we switch back to the notes, that they do have a negative electron affinity.

买了房地产最后却空手而归是常见的，有人说他能同时处理好负现金流，维修和其它费用只是骗人的罢了。

Buying real estate nothing down is easy; handling negative cash flow, repairs and other expenses in the meantime is the trick.

那么我们称它为第三电离能，或者负的束缚能，还是，2，s，轨道的，但现在我们是从正二价硼离子开始的。

So, what we call this is the third ionization energy, or the negative of the binding energy, again of the 2 s orbital, but now it's in boron plus 2 to we're starting with.

而且你知道它等于什么，这是我们说过一遍又一遍的，电离能就等于，负的束缚能。

And we know what that's equal to, this is something we've been over and over, ionization energy is simply equal to the negative of the binding energy.

电离能，我们知道也就是,负的结合能。

The ionization energy, of course, is just the negative of the binding energy.

四场小组赛仅得四分，净胜球负一——除了贝尼特斯，无人能担当此责。

Four matches, four points and a negative goal difference - those figures are the responsibility of benitez and no one else.

我们能进行计算这些值，如果我们这样做，我们能算出是，2。18，乘以10，的负18焦耳。

And we can go through and calculate the value of this quantity in parenthesis. And, when we do so, we get the value 2.18 times 10 to the minus 18 joules.

你们将会知道所有的这些，结合能都是负的。

You'll also know that all of these binding energies here are negative, so the negative sign indicates that it's low.

抑或是GlobalThermostat公司推出的“负碳”技术？该公司称这项技术能直接从空气中吸收二氧化碳。

Or perhaps it will be Global Thermostat, which says its "carbon negative" technology can suck carbon dioxide right out of the air.

如果如果我们把1添加到回报中，你能得到一个非负的数字从而可以使用几何回报。

If we add one to the return, then you've got a number that's never negative and we can then use geometric returns.

在基类库团队中，我们认为，如果某个API是从负1000点开始的，那么即使能提供一些价值也不足以证明可被添加。

In the BCL team we believe that an API start at minus a thousand points and thus providing some value is not good enough to justify being added.

在基类库团队中，我们认为，如果某个API是从负1000点开始的，那么即使能提供一些价值也不足以证明可被添加。

In the BCL team we believe that an API start at minus a thousand points and thus providing some value is not good enough to justify being added.

负能的原声例句

But, can you see that as you get really close together the negative electronic cloud surrounding the two ions start to sense one another.

然后当你真的让它们,离得很近时,这两个离子周围的负电子云能感应到对方。

- So most of you recognize, if we switch back to the notes, that they do have a negative electron affinity.

看来大部人都想到了，如果你翻翻讲义的话，它们的电子亲和能确实是负的。

But you can write it down It's a concept that links itself to a literary or verbal written expression.

但是你们可以将负二的平方用笔写下来,那是种概念，能将其自身,与文学或文字书面的表达连接起来。

n And these are known as anions. It has the n, which might conjure up negative, or anion and minus both have five letters.

这些就是负离子，有，能让我们想起，负，这个字，或者负离子和负号都是5个字母。

And it turns out that when you constructively have two p orbitals interfere, and when I say constructively, I mean they're both either positive or they're both the negative lobes, that's when you got bonding.

当两个ｐ轨道,相长干涉时，我说的相干相长，意思就是说它们要么都是,正的叶瓣要么都是负的叶瓣，这时就能成键。

We'll then take a turn to talking about the periodic table, we'll look at a bunch of periodic trends, including ionization energy, electron affinity, electronegativity and atomic radius.

然后我们再开始讲元素周期表，我们会看到很多周期性规律，比如电离能，电子亲和能，电负性以及原子半径。

So this is not going to be a favorable process, we're going to find that the electron affinity is actually a negative 7 kilojoules per mole for nitrogen.

因此这并不是一个容易发生的过程，我们会发现氮的电子亲和能,应该是负的，7，千焦每摩尔。

We talked about ionization energy, electron affinity, we talked about electronegativity, which is just kind of a combination of the first two, and then ended with atomic radius here.

我们讲了电离能的，电子亲和能的，还讲了电负性的，也就是前两个的组合，最后讲了原子半径的。

And we know what that's equal to, this is something we've been over and over, ionization energy is simply equal to the negative of the binding energy.

而且你知道它等于什么，这是我们说过一遍又一遍的，电离能就等于,负的束缚能。

And we can go through and calculate the value of this quantity in parenthesis. And, when we do so, we get the value 2.18 times 10 to the minus 18 joules.

我们能进行计算这些值,如果我们这样做，我们能算出是，2。18，乘以10，的负18焦耳。

Positive energy is repulsive, and negative energy is attractive.

正的能量值代表斥力，负的能量值代表引力。

And this looks a lot like the average valence electron energy where the lowest values of electronegativity are in the metallic zone and the highest values of electronegativity are on the nonmetallic zone.

这看起来像是平均电子能,最低的电负性在,金属区最高的电负性在,非电子区。

So, let's change our graph where we now have this zero point set as the two individuals hydrogen atoms, and then we see that our h 2 molecule is at the negative of the dissociation energy, or the negative what that bond strength is.

那么让我们把曲线图中的零点能改到,两个分离的氢原子处，那我们就会看到,氢分子就是负的离解能，或者负的键的强度。

Electron affinity, however, can be either negative or it can be positive.

但是，电子亲和能既可以是负的,也可以是正的。

So, what we call this is the third ionization energy, or the negative of the binding energy, again of the 2 s orbital, but now it's in boron plus 2 to we're starting with.

那么我们称它为第三电离能，或者负的束缚能，还是，2，s，轨道的，但现在我们是从正二价硼离子开始的。

And again, this is just the negative, the binding energy, when we're talking about the 2 p orbital.

再说一遍，这就是负的束缚能，当我们考虑，2，p，轨道的时候。

And we wrote something that looks, the energy is equal to minus the Madelung constant times Avogadro's number, 0R0 q1 q2 over 4 pi epsilon zero R zero.

我们写下了，晶格能等于负的马德隆常数,乘以阿伏伽德罗常数，乘以q1q2除以4πε

负能的网络释义

很抱歉，暂无字的网络释义。

以上关于负能的英语翻译来自英汉大词典，希望对您学习负能的英语有帮助。