Thus, the geometry of every carbon atoms is as follows:
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Ideas and motive
Earlier than overlapping with 1s orbital of hydrogen, first the atomic orbitals of carbon undergoes hybridization to type hybrid orbitals. The hybrid orbitals of carbon contain in bond formation with hydrogen. Therefore, the geometry at every carbon is dependent upon the kind of hybridization.
Step 1 of two
Step-by-step
Thus, the geometry of every carbon atoms is as follows:
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The geometry in any respect the carbon atoms is as follows:
Be sure that the carbon has hybridization, if it has two double bonds.
[Hint for the next step]
From the hybridization of every carbon, determine the geometry.
Thus, the geometry of every carbon atoms is as follows:
The geometry in any respect the carbon atoms is as follows:
Step 1 of two
Step-by-step
CH, =5-5-5-=5 *-
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
We have been unable to transcribe this picture
Step 1 of two
CH, =5-5-5-=5 *-
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
We have been unable to transcribe this picture
Step 1 of two
CH, =5-5-5-=5 *-
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
Trigonal planar -> Trigonal planar -> Tetrahedral 5-6-8-8-0=5 Tetrahedral Linear ( Linear
We have been unable to transcribe this picture
This post is last updated on hrtanswers.com at Date : 1st of September – 2022