So that leaves each carbon with only one hybrid orbital left.
这样每个碳原子只剩下一个杂化轨道。
So you see in the hybrid orbital we actually have a larger lobe on top where they constructively interfered.
所以你们可以看到在杂化轨道里,我们上面,由很大的一叶相长干涉。
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。
Abstract Hybrid orbital theory is an important content of inorganic chemistry and structural chemistry in college text book, and it is the basis for further study of element compounds.
摘要杂化轨道理论是大学无机化学、结构化学课程的重要内容,是后续元素化合物学习的基础。
And if we think about the six hydrogens, now each of those are going to bind by combining one of the carbon hybrid orbitals to a 1 s orbital of hydrogen.
如果我们考虑有六个氢原子,每个都会合起来,碳杂化轨道成键,每个氢的1s轨道。
According tot the content of text book, this article written about some understanding of hybrid orbital theory.
本文根据书本上的内容写出了自己对杂化轨道理论的一些理解。
This text illustrates the application of hybrid orbital theory in the field of explaining the steric configuration of molecule and the change of chemical property.
并举例说明了杂化轨道理论在解释分子空间构型和物质化学性质的变化上的应用。
The spatial configurations and bonding effects of Oxides of Nitrogen were explained by using the Valence-shell Electron Repulsion Theory, Hybrid-orbital Theory and Molecular orbital Theory.
用杂化轨道理论和分子轨道理论阐明了氮的氧化物成键类型,给出了分子空间构型及结构数据的解释。
Theory of hybrid atomic orbital is an important point in inorganic chemistry and structure chemistry.
杂化轨道理论是无机化学和结构化学课程重要的知识点。
Theory of hybrid atomic orbital is an important point in inorganic chemistry and structure chemistry.
杂化轨道理论是无机化学和结构化学课程重要的知识点。
应用推荐