• So why don't you tell me what the valence bond description would be of these carbon hydrogen bonds?

    你们来告诉我,碳氢键的价,电子是怎样的?

    麻省理工公开课 - 化学原理课程节选

  • As we see a little bit later, I could talk about the carbon-hydrogen bond in methane where there is a plurality of bonds. In this case, there is only the one bond but I just want to get the formulas.

    因为我们后来看到一点点,我能讨论甲烷中的碳氢共价键,那有许多共价键,这种情况下,这只有一条共价键,但我想得到氟。

    麻省理工公开课 - 固态化学导论课程节选

  • Is a hydrogen bond shorter, or is a nitrogen-nitrogen triple bond going to be shorter?

    是氢的键更短,还是氮与氮的三键更短?

    麻省理工公开课 - 化学原理课程节选

  • Now I want to ask, what's the nature of the carbon-hydrogen bond?

    现在我想问问,碳氢键的本质是什么?

    麻省理工公开课 - 固态化学导论课程节选

  • Let's look at this carbon-hydrogen bond.

    我们来看看这跟碳氢键。

    麻省理工公开课 - 固态化学导论课程节选

  • So in terms of the carbon hydrogen bond, it's a sigma bond, - because we define it -- any time we are bonding to an atom, we have to keep redefining our bond axis to whatever two atoms we're talking about.

    对于碳氢键,它是sigma键,因为我们定义它-,任何时候我们有原子成键,我们要重新定义键轴方向,为我们所讨论的两个原子方向。

    麻省理工公开课 - 化学原理课程节选

  • 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。

    麻省理工公开课 - 化学原理课程节选

  • In contrast, the dissociation energy of a bond for hydrogen, and molecular hydrogen is everywhere around us, we see 432 kilojoules per mole.

    相反,氢分子在我们周围到处都是,一个氢分子的离解能,是432千焦每摩尔。

    麻省理工公开课 - 化学原理课程节选

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

    这是氢的同原子的共价能,在纯氢中,我们有完美的共价键。

    麻省理工公开课 - 固态化学导论课程节选

  • 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。

    麻省理工公开课 - 化学原理课程节选

  • For hydrogen our bond order is going to equal 1/2, 2 minus 0.

    对于氢原子键序等于1/2,2减去。

    麻省理工公开课 - 化学原理课程节选

  • So it's going to be a sigma bond, 1s and we have oxygen 2 s p 3 and hydrogen 1 s.

    它是sigma键,我们有氧2sp3和氢。

    麻省理工公开课 - 化学原理课程节选

  • So, what this lets us do now is directly compare, for example, the strength of a bond in terms of a hydrogen atom and hydrogen molecule, compared to any kind of molecule that we want to graph on top of it.

    因此,这让我们现在可以做到直接进行比较,比如,将一个氢原子,和一个氢分子的键的强度,与任何其它类型的分子进行比较,我们只需要把它的曲线也画在这幅图上。

    麻省理工公开课 - 化学原理课程节选

  • So, in fact, yes, we did confirm that these covalent bond, at least in the case of hydrogen, we have confirmed by the numbers that we are at a lower energy state when we talk about the bonded atom versus the individual atom.

    因此,事实上,是的,我们证实了共价键,至少在氢这种情况下,我们通过数据证实了,成键的原子处于能量更低的状态,当其与单个的原子相对比时。

    麻省理工公开课 - 化学原理课程节选

  • Essentially it would only allow for us to bond to two hydrogen atoms.

    本质上,它只能允许我们,和两个氢原子成键。

    麻省理工公开课 - 化学原理课程节选

  • So, if we talk about dissociating h 2, we're going from the h 2 molecule, and breaking this bond right in half, so we now have two individual hydrogen atoms here.

    那么,如果我们讨论的是离解氢分子,我们将从氢分子开始,使这个键断裂,一分为二,那么就得到了两个分开的氢原子。

    麻省理工公开课 - 化学原理课程节选

  • Our second bond is going to be between the carbon and the hydrogen atoms.

    第二种键是,碳氢之间的键。

    麻省理工公开课 - 化学原理课程节选

  • Yeah, we'd expect to see a single bond in hydrogen.

    嗯,我们预计在氢分子里会看到一个单键。

    麻省理工公开课 - 化学原理课程节选

  • So it's along the bond axis and it's between a carbon s p 2 hybrid, and then the hydrogen is just a 1 s orbital that we're combining here.

    所以它是沿着键轴方向的,而且这里是一个碳sp2杂化轨道,和一个氢的1s轨道的结合,在这里我们可以合并他们。

    麻省理工公开课 - 化学原理课程节选

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