27 мар. 2016 г. · Boat and chair are the conformations of cyclohexane. Among which chair conformation is most stable because it has negligible ring strains so, ... Why is the chair form of cyclohexane more stable than its boat ... Is boat or chair conformation more stable? - Quora What cyclohexane conformation is more stable? Why is ... - Quora What makes a chair conformation more stable? - Quora Другие результаты с сайта www.quora.com

19 сент. 2015 г. · However, why chair is more stable than boat? The answer is because of the torsional and steric strains which are more present in a boat ...

8 мар. 2016 г. · Chair conformation of cyclohexane is more stable than boat form because in chair conformaion the CH bonds are equally axial and equatorial.

Torsional strain and flagpole interactions cause boat conformation to have considerably higher energy than chair conformation. The chair form is more stable ...

The reasons for more stability of the chair form than to the boat form are as follows: The boat form has two flagpole hydrogen atoms.

Boat form of cyclohexane is less stable than chair form due to an interaction of flag pole H creates steric strain at top of carbon.

Due to the D2 symmetry of the twist-boat, there are two energy-equivalent pathways that it can take to two different half-chair conformations, leading to the ...

6 мар. 2014 г. · This structure has many 120º angles and is not stable, so sometimes the cyclohexane will be kinetically trapped in the boat conformation. Also, ...

Chair conformer is more stable than the boat conformer because boat conformation has more steric strains and torsional strains.