本文为您带来键能的英文翻译，包括键能用英语怎么说，键能用英语怎么说，键能的英语造句，键能的英文原声例

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

键能的英文翻译，键能的英语怎么说？

键能的英语网络释义

...41329 nm γ = 95.751° ° 二甲基嘧啶胺与ZnCl2 二甲基嘧啶胺与 在无水乙醇中形成的配 合物 三斜晶系 键能(键能(bond energy): ): 表示在通常外界条件下物质原子间相互作用的强弱。 表示在通常外界条件下物质原子间相互作用的强弱。

... Bond Angles键角 Bond Enthalpies键能 Bond Polarity键矩 ...

Binding energy 结合能 ; 结合能 ; 束缚能 ; 键能 Husky Energy 赫斯基能源公司 ; 赫斯基能源 ; 斯基能源公司 ; 能源公司 ..

...的电子云， 与带正电的原子核之间形成静电引力和斥力的平衡， 此时原子核之间的距离称键长.1.2.1 基本概念 键能(bond strength): 打开化学键所必需的能量称键能。

键能的汉英大词典

键能的英语短语

键能的英文例句

孤对电子对键能的影响不是原子间的效应。

The influence of lone pair on bond energy cannot be an interatomic effect.

计算了含钴高速钢的价电子结构与共价键能。

The valence electron structures and covalent bond energy have been calculated for cobalt high speed steel.

特别的是，HH键，让我们看看他的键能是多少。

More particularly, the HH bond, right, and let's ask what the energy of that is.

使用控制显示装置键盘上的专用键能完成各种功能。

On a typewriter or a keyboard, a control for effecting the space function.

如果他们不是等价的共用，个别的键，可能有不同的键能。

And, if they don't share equally, then the individual bonds might have different energies.

在你的表格里也有,如果让我们来猜猜，你会猜HF的键能是多少呢？

Well, you go look in your table So, if I had to guess, 4 what would you guess the bond energy would be in HF?

我们把每个分子从最低能量把原子拉开,所需要的能量,叫裂解键能。

There's a bond dissociation energy going from the lowest available level in each molecule to the dissociation limit where we pulled the atoms apart.

氢键的键能较小，但其存在却对物质的性质，结构等方面有很大影响。

The hydrogen bond energy is smaller, but its existence actually aspects to the material nature, and structure so on.

这是因为，对于这个问题，我们应当考虑到，什么样的热能，对应于键能？

Because, when you ask yourself that question, you should consider what is the thermal energy versus the bonding energy?

目前已被广泛用来计算原子和分子的极化率、磁化率、总能量、键能等。

Now, it has been applied to calculating atomic and molecular polarization rate, susceptibility, total energy, bond energy etc.

当一封邮件被选中时，按J键能直接跳到这一列邮件中日期最早的一封。

Hitting 'j' while an email is highlighted will jump directly to the oldest message in that email chain.

立式易持设计使本产品易于直观操作，通过按指定键能直接进入各自功能。

Easy-to-hold vertical type is designed to make it intuitively easy to operate, as individual functions are accessed directly by pressing assigned keys.

拉曼光谱分析结果证明：吸电子基团的存在使苯环上c -H的键能提高。

Raman spectroscopy results showed that: the presence of electron withdrawing groups improved the bond energy of C-H in the benzene ring.

实验结果表明慢速弛豫过程的时间常数随醇溶剂分子间氢键键能的增强而增大。

The time constants of the slower decays are found to increase with the hydrogen-bonding energy in alcoholic solvents.

如果键能非常强，热能并不足以，打破这些化学键，破坏这些化学键，并使它们液化。

If the bonding energy is very strongly negative, thermal energy isn't great enough to disrupt those bonds and allow those bonds to be broken and then have fluidity.

本文从阻燃化学反应、化学键能、热传递和反应动力学角度分析卤素类阻燃剂的阻燃机理。

The flame retardant fundamentals were discussed based on the flame retardant chemical reactions, bond energy, heat transfer and reaction kinetics aspects.

同时，本文通过对硅灰石的晶体结构的分析，结合晶格内键能的大小，得出了硅灰石的理想破碎模型；

At the same time, get the imaginary model in analyzing the crystal's structure combined the chemical bond's energy.

这是氢的同原子的共价能,在纯氢中，我们有完美的共价键。

This is the homonuclear bond energy for hydrogen in pure hydrogen. There we have perfect covalency.

因此，利用这里所描述的技术，通过在审计期间查找这个键，我们能识别没有安装补丁程序的任何机器，并且相应地对它们进行处理。

Hence, by looking for the key during an audit, using the techniques described here, we can identify any machines that lack the patch, and deal with them accordingly.

如果没有列能满足作为默认分区键的条件，则表在创建后就没有分区键，也就意味着这个表不能横跨一个以上的分区。

If no columns satisfy the requirement for a default partitioning key, the table is created without one, which means the table cannot span more than one partition.

剩下的任务是验证键生成器和范围生成器函数是否能正常地运行。

The remaining task is to verify the proper functioning of the key generator and range producer functions.

F4快捷键几乎能重做你对文档文本的任何操作：输入文字、设定格式、删除。

The F4 shortcut will repeat nearly all the actions you take on document text: typing: formatting, deleting.

因此，首先我们将会保持零点能的这个定义，但很快我们就会对它进行修改,使它在讨论成键时更合理，但是目前我们还是暂时采用这种定义。

So, for starters we'll keep that as our zero energy, we're going to change it soon to make something that makes more sense in terms of bonding, but we'll keep that as zero for now.

打字是相当容易，而如果每个键的突起能更纤细些的话，那可能就更完美了。

Typing is easy enough although it would probably have been better if each key were raised slightly.

能谈一谈环境克隆、自动化和一键部署吗？

Can you tell me more about environment cloning, automatic and one-button deployment?

X射线吸收光谱的峰值能显示出目标物质的化学键的确切性质，从而显示其组织结构。

The peaks in the X-ray absorptionspectrum can shed light on the precise nature of the target substance'schemical bonds, and hence on its structure.

对于任何离子，能形成很多键。

It allows for plurality of bonds from any ion.

如果你很快的改变方向，或者错过一个键，Swype也能明白你想要啥。

If you change direction too soon, or miss a key, Swype may well still understand you.

我们已经有2个状态在这里，3个在这里，2个在这里，我需要4个，如果我能想到这些键，四个，通过洪特规则，我们就能像这样排布。

I've got two states here, three states here, two here, I need four, and if I can come up with these bonds, four, by the Hund rule I'd fill them like this.

三键操作，1600dpi与蓝牙2.0连接确保了该款鼠标能胜任大多数家庭和办公工作。

Three button operation, 1600dpi laser technology and Bluetooth 2.0 connectivity ensure that the eclipse touchmouse can cope with a multitude of home and office tasks.

键能的原声例句

So, there's actually another way to graph it where we can directly graph the dissociation energy or the bond strengths.

其实，还有另外一种画这个曲线的方式,可以直接画出离解能的大小,或者键的强度。

So what we can actually directly compare is the dissociation energy or the bond strength of nitrogen versus hydrogen.

因此实际上我们可以直接进行比较,对氮分子与氢分子的离解能,或键的强度。

Because, when you ask yourself that question, you should consider what is the thermal energy versus the bonding energy?

这是因为，对于这个问题，我们应当考虑到,什么样的热能,对应于键能？

That doesn't heal naturally but can be reformed by other enzymes called ligases, ligases re-established the phosphate bonds.

这不能恢复如初,但用连接酶可以做到这一点,连接酶能重建磷酸键

What you can do is you can iterate keys, which gives you the keys in the dictionary, and then you can choose them, but there's no guarantee in the order in which you get keys.

你能做的就是迭代得到键，这样就可以得到字典中，所有的键并进行选择，但是键的顺序,是没有保证的。

So in a moment you're going to go ahead and hit the spacebar and then as things fall from the screen when they line up with the left arrow, hit the left arrow with a different arrow, hit that arrow and see how good a score you can get.

一会儿你走到前面，敲一下空格键,当屏幕上面的东西从左边往下掉的时候,你就敲一下键盘上的左键,是哪个方向，敲对应的方向键就可以了,我们来看看你能得多少分。

So the point is, this balance between energy thatyou could think of as say bond energies in chemical reactions, and entropy that you can think of in terms of disorder, how many different possible combinations or configurations of something wrong, will dictate where the equilibrium lies.

关键在于，这种能量与熵之间的平衡,确定了平衡的条件，在化学中能量涉及键能，而熵和无序有关,即有多少可能的不同组合或者形位，二者的平衡会告诉我们平衡态是什么样子。

There are nine keys for my left thumb alone so I'm kind of switching between these on the back here and many others, and because of that I can go very high and I'll just demonstrate that.

我的左手拇指就要控制九个音键,通过按动后部,和其他地方的音键,我就能吹出很高的音,我现在就来演示

so you can see that there is going to be two sets in antibonding, three sets in bonding for a net of one, giving us the single bond.

因此你能看到,反键轨道上有两组，三组成键，得到一组净成键，所以成的是单键。

It's much more relevant to set our zero point energy as the separation of a bond in terms of talking about the reactions that we'll usually be dealing with here.

更好的是把零点能定在,键断裂的时刻,在讨论化学反应的时候,而我们以后将经常遇到化学反应。

It allows for plurality of bonds from any ion.

对于任何离子，能形成很多键。

All right, so we can now see a little bit of what the power of molecular orbital theory is in predicting what kind of bonds we're going to see in molecules, or whether or not we'll see this bonding occur at all.

好了，我们已经可以看到一点,分子轨道理论在预测分子中,所成的键或者分子，能不能成键方面的能力了。

If we know that this is it the dissociation energy for a hydrogen atom, we can also say the bond strength for hydrogen molecule 424 is 424.

如果我们知道了这是一个氢分子的离解能,那么我们也可以说氢分子的键的强度,就是。

This energy level diagram helps us understand the relationship between electron filling and bond strength.

能级图能帮助我们,理解电子填充,和键强的关系。

I've got two states here, three states here, two here, I need four, and if I can come up with these bonds, four, by the Hund rule I'd fill them like this.

我们已经有2个状态在这里，3个在这里，2个在这里，我需要4个，如果我能想到这些键，四个，通过洪特规则，我们就能像这样排布。

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。

And the prefactor is 96.3 3 when you want to get a result in kilojoules per mole.

当使用千焦每摩表示键能3,时前因子为96。

Just to give you a sense of what that means, if the 264 figure is pure covalency and the 344 is partial ionic character, what fraction of the 608 is 344? 344, which is partial ionic character, 57% divided by 608 times 100 is 57%.

它只是给你一个这样的概念，264千焦每摩是完全共价成分的键能,而344是离子成分的，344除以608是多少，344，是不完全的离子特性，除以608乘以100得到。

Gentleman can you...?I'm goint to hit... But I was told to do funishion Fa Hua.All right.It's something came up and then disappear.

各位男士,你们谁能教我,我该按哪,有人告诉我是按Fa键,好吧,幻灯片出现,然后消失

If the bonding energy is very strongly negative, thermal energy isn't great enough to disrupt those bonds and allow those bonds to be broken and then have fluidity.

如果键能非常强，热能并不足以,打破这些化学键,破坏这些化学键,并使它们液化。

But he said the energy of an X-Y bond is going to be equal to the square root.

但他说ＸＹ键的键能,会等于ＸＸ键与ＹＹ键键能乘积的平方根。

So, another way to talk about dissociation energy is simply to call it bond strength, it's the same thing, they're equal to each other.

讨论离解能的另外一种方式,是直接称它为键的强度，它们是一样的，彼此相等。

And, if they don't share equally, then the individual bonds might have different energies.

如果他们不是等价的共用，个别的键,可能有不同的键能。

CH4 is sp3 carbon hybridization.

能容纳4个原子成键。

Any time two orbitals come straight on together in that internuclear axis, you're going to have a sigma bond.

任何时候两个轨道,在核间轴上直接到一起，你就能得到sigma键。

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。

So, this gives you the energy of the bond.

这可以算出键能。

More particularly, the HH bond, right, and let's ask what the energy of that is.

特别的是，HH键，让我们看看他的键能是多少。

All right, so the type of bond energies that we can go and look up in tables are individual atom bonds, H-H, F-F, and the like.

好的，键能的类型,我们能够在表中查到,都是独立的原子键，H-H，F-F以及类似的。

Well, you go look in your table So, if I had to guess, 4 what would you guess the bond energy would be in HF?

在你的表格里也有,如果让我们来猜猜，你会猜HF的键能是多少呢？

键能的网络释义

键能 键能（Bond Energy）是从能量因素衡量化学键强弱的物理量。其定义为：在标准状况下，将1mol气态分子AB（g）解离为气态原子A（g），B（g）所需的能量，用符号E表示，单位为kJ.mol-1。键能的数值通常用该温度下该反应的标准摩尔反应焓变表示，如不指明温度，应为298.15K。

以上关于键能的英语翻译来自英汉大词典，希望对您学习键能的英语有帮助。