Compound J is a secondary haloalkane. Compound J reacted with sodium cyanide to form compound K. Compound L was produced when compound J reacted with sodium hydroxide while compound M formed when compound J reacted with ammonia in ethanol. Compound J was formed when compound A reacted with hydrogen bromide in the presence of hydrogen peroxide. Compound B was formed when Compound A reacted with bromine water. Compound A undergo hydrogenation to produce compound C. Compound A undergo hydration in the presence of H2SO4 as the catalyst to form compound D. Compound A undergo oxidation with hot acidified KMnO4 to produce compound E and Compound F. Compound G was formed when Compound A reacted with bromine gas. Compound A reacted with O3, Zn with water to produce Compound H and Compound I. Reaction X happened when compound C reacted with chlorine in the presences of UV light. a) Identify the possible structural formulae for compound A to M. The number of carbons for compound J is more than six atoms. b) Distinguish between Compound A and Compound C. c) Illustrate the skeletal, condensed and expanded formula of the main product formed during Reaction X. d) Give TWO (2) differences between SN1 and SN2 reactions and state ONE (1) example for each reaction.
Compound J is a secondary haloalkane. Compound J reacted with sodium cyanide to form compound K. Compound L was produced when compound J reacted with sodium hydroxide while compound M formed when compound J reacted with ammonia in ethanol. Compound J was formed when compound A reacted with hydrogen bromide in the presence of hydrogen peroxide. Compound B was formed when Compound A reacted with bromine water. Compound A undergo hydrogenation to produce compound C. Compound A undergo hydration in the presence of H2SO4 as the catalyst to form compound D. Compound A undergo oxidation with hot acidified KMnO4 to produce compound E and Compound F. Compound G was formed when Compound A reacted with bromine gas. Compound A reacted with O3, Zn with water to produce Compound H and Compound I. Reaction X happened when compound C reacted with chlorine in the presences of UV light. a) Identify the possible structural formulae for compound A to M. The number of carbons for compound J is more than six atoms. b) Distinguish between Compound A and Compound C. c) Illustrate the skeletal, condensed and expanded formula of the main product formed during Reaction X. d) Give TWO (2) differences between SN1 and SN2 reactions and state ONE (1) example for each reaction.
Compound J is a secondary haloalkane. Compound J reacted with sodium cyanide to form compound K. Compound L was produced when compound J reacted with sodium hydroxide while compound M formed when compound J reacted with ammonia in ethanol. Compound J was formed when compound A reacted with hydrogen bromide in the presence of hydrogen peroxide. Compound B was formed when Compound A reacted with bromine water. Compound A undergo hydrogenation to produce compound C. Compound A undergo hydration in the presence of H2SO4 as the catalyst to form compound D. Compound A undergo oxidation with hot acidified KMnO4 to produce compound E and Compound F. Compound G was formed when Compound A reacted with bromine gas. Compound A reacted with O3, Zn with water to produce Compound H and Compound I. Reaction X happened when compound C reacted with chlorine in the presences of UV light. a) Identify the possible structural formulae for compound A to M. The number of carbons for compound J is more than six atoms. b) Distinguish between Compound A and Compound C. c) Illustrate the skeletal, condensed and expanded formula of the main product formed during Reaction X. d) Give TWO (2) differences between SN1 and SN2 reactions and state ONE (1) example for each reaction.
Compound J is a secondary haloalkane. Compound J reacted with sodium cyanide to form compound K. Compound L was produced when compound J reacted with sodium hydroxide while compound M formed when compound J reacted with ammonia in ethanol. Compound J was formed when compound A reacted with hydrogen bromide in the presence of hydrogen peroxide. Compound B was formed when Compound A reacted with bromine water. Compound A undergo hydrogenation to produce compound C. Compound A undergo hydration in the presence of H2SO4 as the catalyst to form compound D. Compound A undergo oxidation with hot acidified KMnO4 to produce compound E and Compound F. Compound G was formed when Compound A reacted with bromine gas. Compound A reacted with O3, Zn with water to produce Compound H and Compound I. Reaction X happened when compound C reacted with chlorine in the presences of UV light.
a) Identify the possible structural formulae for compound A to M. The number of carbons for compound J is more than six atoms.
b) Distinguish between Compound A and Compound C.
c) Illustrate the skeletal, condensed and expanded formula of the main product formed during Reaction X.
d) Give TWO (2) differences between SN1 and SN2 reactions and
state ONE (1) example for each reaction.
Definition Definition Organic compounds in which one or more hydrogen atom in an alkane is replaced by a halogen atom (fluorine, chlorine, bromine, or iodine). These are also known as haloalkanes.
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