Concept explainers
(a)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and
To determine: The isomer of a cyclic compound that is an isomer of
(b)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and functional group also differs in their structures.
To determine: The isomer of an ester that is an isomer of propanoic acid.
(c)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and functional group also differs in their structures.
To determine: The isomer of a
(d)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and functional group also differs in their structures.
To determine: The isomer of a secondary
The isomer of a secondary amine that is an isomer of butylamine is shown in Figure 4.
(e)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and functional group also differs in their structures.
To determine: The isomer of a tertiary amine that is an isomer of butylamine.
(f)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and functional group also differs in their structures.
To determine: The isomer of ether that is an isomer of
(g)
Interpretation: For each of the following, isomers are to be drawn.
Concept introduction: An isomer is defined as molecules having a same molecular formula but with a different structural arrangement of atoms within the formula. They do not have similar properties and functional group also differs in their structures.
To determine: The isomer of a secondary alcohol that is isomer of
The isomer of a secondary alcohol that is isomer of
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Chemistry: An Atoms First Approach
- 1. what grouo does the ff organic compound belong? a. ketone b. ether c. cyloalkane d. esther 2. what group does the ff organic compound belong? a. amide b. azo c. nitrile d. amine 3. what is the priority functional group of the ff organic compound? a. carboxyl b. hydroxyl c. carbonyl d. hydroxidearrow_forwardWhich of the given functional groups is not present in the following structure?arrow_forwardAmide hydrolysis in basic conditions forms A. a carboxylic acid and an amine B. a carboxylate salt and an amine 3. an ester and an amine 4. a carboxylic acid and an amine saltarrow_forward
- Identify the organic functional groups and reaction type for the following reaction.The reactant is a(n)a. secondary amideb. carboxylic acidc. tertiary amided. aromatice. ketonef. primary amideg. aldehydeh. amineThe products are a(n)a. carboxylate ion and amineb. ketone and aminec. carboxylic acid and amided. carboxylic acid and alcohole. ester and aminef. aldehyde and amineg. carboxylic acid and ammonium ionThe reaction type isa. hydrolysis (in acid)b. amide synthesisc. hydrationd. esterificatione. dehydrationf. hydrolysis (in base)arrow_forwardMatch the following molecules with the name of their functional group. A. Amine B. Amide C. Alcohol D.Ether E. Aldehyde F. Ketone G.Carboxcylic acid E.Ester Thanks.arrow_forward1. The following molecule contains the functional groups A. secondary amine, secondary alcohol, ketone, carboxylic ester B. amide, primary alcohol, aldehyde, carboxylic acid C. secondary amine, two secondary alcohols, and two ketones D. primary amine, secondary alcohol, ketone, and carboxylic acid The following molecule contains the functional groups 2. A. primary alcohol and primary amine C. secondary alcohol and primary amine 3. A. alkene and secondary alcohol C. ketone and seconary alcohol The following molecule contains the functional groups B. ether and ketone D. ether and alkene 4. The following molecule A. primary amine and ketone C. secondary amine and alkyne NH₂ contains the functional groups B. secondary amine and alkene D. secondary amine and ketone ОН OH B. secondary alcohol and secondary amine D. primary alcohol and secondary amine NH₂ OHarrow_forward
- ttarrow_forwardRCOOH + Sncl2/NH3 = ---------------------. a. Cyanides b. Amine c. Amide d. Niltrilearrow_forwardEsters are produced by a process which can be characterized as a. a condensation reaction. b. a hydrolysis reaction. c. the reaction of alcohols with carboxylic acids. d. both a hydrolysis reaction and the reaction of alcohols with carboxylic acids. e. both a condensation reaction and the reaction of alcohols with carboxylic acids.arrow_forward
- What are the functional groups present in this image? A. Amide, carbonyl, and nitro B. Alkene, amine, and amide C. Amine and carbonyl D. Amine and amide only A brief explanation would be highly appreciated + upvotearrow_forwardIdentify the organic functional groups and reaction type for the following reaction.The reactant is a(n) a. amideb. aldehydec. alcohold. carboxylic acide. esterf. ketoneThe product is a(n)a. carboxylate ionb. ammonium ionc. alcohold. carboxylic acide. ketonef. aldehydeThe reaction type isa. hydrationb. esterificationc. hydrolysis (in acid)d. hydrolysis (in base)e. amide synthesisf. amide synthesisg. dehydrationh. acid basearrow_forwardIdentify the organic functional group of the reactant and the reaction type then predict the functional group(s) of the product(s).The reactant is a(n)a. ketoneb. esterc. amided. alcohole. carboxylic acidf. amineg. aldehydeThe reaction type isa. hydrationb. hydrolysis (in base)c. esterificationd. dehydratione. hydrolysis (in acid)f. amide synthesisThe product should be a(n)a. ketoneb. aldehydec. alcohol onlyd. estere. carboxylic acid and an alcoholf. carboxylic acid onlyg. amidearrow_forward
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