(a)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(b)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(c)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(d)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(e)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(f)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(g)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
(h)
To determine: If the compound is chiral; it’s most symmetric conformation and asymmetric carbon atoms (to be marked by a star) and mirror planes if possible.
Interpretation: The validation of the fact that the given compound is chiral is to be stated; most symmetric conformation of the compound and any mirror plane if possible are to be drawn and asymmetric carbon atoms are to be marked by star.
Concept introduction: An asymmetric carbon atom is represented as a cross in Fisher projection. The carbon chain is kept along the vertical line. The groups attached to asymmetric carbon atoms are arranged according to their configuration in Fisher projection. The enantiomers of a chiral compound can be named with the help of right hand and left hand configuration. In fisher projection, chiral carbon atom is represented by a cross. When two groups on a fisher projection are interchanged, the configuration of chiral carbon also changes from (R) to (S) aur (S) to (R).
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Chapter 5 Solutions
Organic Chemistry (9th Edition)
- -Sketch the Fischer projection and make a model of each stereoisomer (R and S) of the alcohol 2-butanol, CH3CHOHCH2CH3. Also sketch the monosaccharide glyceraldehyde, HOCH2CHOHCHO. Prioritize the four groups attached to the stereocenter with 1 being the highest priority and 4 being the lowest priority.arrow_forward1. draw the most stable chair form of (1R,2R)-1-ethyl-2-methylcyclohexane 2. in the following chiral compound, the stereogenic center is denoted by C*. assign the priorities to the groups attached to C* using the Cahn-Ingold-Prelog system. please show your work (the image goes with question 2)arrow_forward(b) (i) Using Fischer projection, draw all the stereoisomers of 3-chloro-2-hydroxypentanoic acid. (ii) Assign the chiral centre(s) with R/S configurations in part (b)(i). Indicate which are enantiomers, diastereomers and meso compounds (if any).arrow_forward
- Based on the image. What is 1. The anti-conformer of hexane in Newman projection. 2. The equivalent structure of LAM in sawhorse representation. 3.arrow_forwardShown below is Streptomycin, an antibiotic medication used to treat a number of bacterial infections, including tuberculosis, plague, and endocarditis. Neomycin B has broad-spectrum antibacterial activity. Circle and label as many functional groups in these molecules as you can. Label each chiral carbon in Streptomycin. How many total stereoisomers exist for Streptomycin? Label each chiral carbon in Neomycin B. How many total stereoisomers exist for Neomycin B?arrow_forward1) Are the molecules A and B... conformational isomers? Diastereomers? Enantiomers? Position isomers? Non-related? 2) What about the molecules B and C? 3) What about the molecules C and D?arrow_forward
- Draw Fischer projections for the four stereoisomers of 2-bromo-3-chlorobutane, label them (2R,3R), (2S,3S), (2R, 3S), and (2S, 3R)arrow_forwardWhich Carbons are chiral? What is the absolute (R/S) configuration of the chiral carbon that IS NOT also part of a ring? Is it an R or S configuration? Show the priorities the using the structure below that led to this answer.arrow_forwardpls show the the isomers of butane-2,3-diol. Which pairs are enantiomers? diastereomers? mesomers? pls explain why for eacharrow_forward
- Draw the bond-line formula of 3,4-dimethylhexane. Is geometric isomerism observed in 3,4-dimethylhexane? What structural features must be present for stereoisomers to exist? (4 marks) (b) (1) Using Fischer projection, draw all the stereoisomers of 3-chloro-2-hydroxypentanoic acid. (4 marks) (ii) Assign the chiral centre(s) with R/S configurations in part (b)(i). Indicate which are enantiomers, diastereomers and meso compounds (if any).arrow_forwardabsolute configuration of the chirality center ? C1 is left and C2 is rightarrow_forwardHey could someone help me draw the enantiomer and diastereomer for these figures? I tried on the first one but I’m lost. Thank you!!arrow_forward
Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning