(a)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The conversion of an
(b)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The
(c)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The reaction of an alkene with ozone leads to the formation of a cyclic compound called molozonide or primary ozonide. The molozonide consist of two peroxy linkage which is quite unstable. It rearranges rapidly, at low temperature and forms an ozonide. These ozonides are often unstable. They react with reducing agent like zinc or dimethyl sulphide and forms
(d)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: Osmium tetraoxide or osmic acid with
(e)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The oxidative cleavage of an alkene by hot concentrated
(f)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: A solution of peroxyacetic acid in water is preferably used for anti dihydroxylation of alkenes. The mechanism proceeds through formation of epoxide followed by of anti addition of
(g)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The hydrogenation of an alkene is done by
(h)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The reaction of an alkene with
(i)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The reaction of an alkene with
(j)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The reaction of bromine in the presence of water with an alkene results Markonikov orientation, anti-stereochemistry and no rearrangement.
(k)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The halogenation reaction of an alkene with chlorine results anti-stereochemistry addition of chlorine.
(l)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The reaction of an alkene with
(m)
To determine: The structure of the expected product when limonene reacts with the given reagent in excess amount.
Interpretation: The structure of the expected product when limonene reacts with the given reagent in excess amount is to be stated.
Concept introduction: The mixture of
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