When `CH_(2)=CH-COOH` is reduced with `LiAlH_(4)`, the compound obtained will be

When CH_(2)=CH -CO OH is reduced with LiAlH_(4) the compound obtained will be

Propene is allowed to react with m-chloroperoxybenzoic acid. The product (A) is then reduced with LiAlH_(4) in dry ether to give (B). CH_(3)CH=CH_(2)overset(MCPBA)rarrAunderset(2. H_(3)O^(+))overset(1. LiAlH_(4))rarrB The structure of the product (B) is :

Why is CH_(2)=CH-COOH a stronger acid than CH_(3)CH_(2)COOH ?

C_(6)H_(5)CH_(2)CH_(2)CH_(3) is when oxidised in the presence of alk. KMnO_(4) the product obtained is

Consider the following reactions. I. CH_(2)=CHCOOH overset(Delta)to CH_(2)=CH_(2) II. III. CH_(3)CH(COOH)_(2) overset(Delta)to CH_(3)CH_(2)COOH In which cases, parent compound loses its functional group in preference?

CH_(3)-O-underset(O)underset(||)(C )-CH_(2)-COOH The correct IUPAC name of the above compound is :

An alkyne C_(7)H_(12) when reacted with alkaline KMnO_(4) followed by acidification by HCl, yielded a mixture of CH_(3)-underset(CH_(3))underset(|)(CH)-COOH & CH_(3)CH_(2)COOH . The alkyne is -

Write structures for X and Y in the following reactions: CH_(3)CH_(2)CH(CH_(3))COCloverset(LBAH)toX CH_(3)CH_(2)CH(CH_(3))COCloverset(LiAlH_(4))toY where LBAH is lithium tri-t-butoxyaluminium hydride. LBAH is a less active reducing agent than LiAlH_(4) and does not reduce aldehydes to alcohols.