The question pertains to the product formation in a dehydrohalogenation reaction of 2-Bromo pentane. The correct answer is based on Saytzeff's Rule. Let's explore this further:
Dehydrohalogenation is a chemical reaction that involves the removal of a hydrogen halide (in this case, HBr) from an alkyl halide, leading to the formation of an alkene.
2-Bromo pentane, when subjected to dehydrohalogenation, undergoes an elimination reaction to form an alkene as a product. In this reaction, the specificity of the product formation is explained by Saytzeff's Rule, which can be stated as follows:
Saytzeff's Rule: In the elimination reactions, the preferred formation of alkenes is such that the more substituted alkene (the one with more alkyl groups attached to the double-bonded carbon atoms) is the favored product.
Applying Saytzeff's Rule to 2-Bromo pentane:
Let's briefly discuss why the other options are incorrect:
Thus, the formation of Pent-2-ene in the dehydrohalogenation of 2-Bromo pentane is indeed governed by Saytzeff's Rule.
3A → 2B,rate of reaction +d[B]/dt is equals to

List-I | List-II | ||
| (A) | ![]() | (I) | ![]() |
| (B) | ![]() | (II) | CrO3 |
| (C) | ![]() | (III) | KMnO4/KOH, \(\Delta\) |
| (D) | ![]() | (IV) | (i) O3 (ii) Zn-H2O |