2-bromobutane
Removing all of the water is necessary because otherwise, the high heat during distillation will cause the water and bromobutane to react and form butanol.
Yes it is. The second carbon atom is chiral, which means it is sp3 hybridised and has 4 different groups, namely H, Br, CH3 and CH2CH3 attached to it, and the molecule does not have any plane of symmetry.
Because other substances that are use in the experiment have the same boiling range as he product.
1-bromobutane 2-bromobutane 1-bromo 2-methylpropane 2-bromo 2-methylpropane
2-bromobutane
4: 1-bromobutane 2-bromobutane 1-bromo-2-methylpropane 2-bromo-2-methylpropane
Removing all of the water is necessary because otherwise, the high heat during distillation will cause the water and bromobutane to react and form butanol.
its a stereo isomers because it has on chiral center and free from elements of symmetry
1-Bromobutane is synthesized from industrial hydrobromic acid and n-butyl alcohol using concentrated sulfuric acid as catalyst. The optimal condition is as follows: the molar ratio of n-butyl alcohol, hydrobromic acid and concentrated sulfuric acid is 1: 1.13: 1.37, refluxed for 5h, and the isolated yield of 1-bromobutane is up to 93.8%. Raw product is analyzed by GC and no by-product is detected. Pure product is characterized by IR and index of refraction.
(additional)using Aliquat 336 in the synthesis of butyl benzoate from sodium benzoate and 1-bromobutane.
Many organic compounds have this chemical formula; see the link below for details and structures.
2-bromo-2 2-dimethylethane
Yes it is. The second carbon atom is chiral, which means it is sp3 hybridised and has 4 different groups, namely H, Br, CH3 and CH2CH3 attached to it, and the molecule does not have any plane of symmetry.
Because other substances that are use in the experiment have the same boiling range as he product.
1-bromobutane 2-bromobutane 1-bromo 2-methylpropane 2-bromo 2-methylpropane
Bromine as a molecule is covalent and not polarized as the atoms of Br are the same. When reacted with metals, bromine forms bromide salts which are pure ionic. When reacted with organic molecules (as an example 1-bromobutane) it would be polar covalent bonded.