(a)
To determine: A model for the given fisher projection, its mirror image, if mirror image is same or different from the original structure and mirror planes of symmetry that are apparent from Fisher projections.
Interpretation: A model for the given fisher projection is to be made, its mirror image is to be drawn, whether the mirror image is same or different from the original structure is to be stated and mirror planes of symmetry that are apparent from Fisher projections are to be drawn.
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 asymmetric carbon atoms are arranged according to their configuration in Fisher projection.
(b)
To determine: A model for the given fisher projection, its mirror image, if mirror image is same or different from the original structure and mirror planes of symmetry that are apparent from Fisher projections.
Interpretation: A model for the given fisher projection is to be made, its mirror image is to be drawn, whether the mirror image is same or different from the original structure is to be stated and mirror planes of symmetry that are apparent from Fisher projections are to be drawn.
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 asymmetric carbon atoms are arranged according to their configuration in Fisher projection.
(c)
To determine: A model for the given fisher projection, its mirror image, if mirror image is same or different from the original structure and mirror planes of symmetry that are apparent from Fisher projections.
Interpretation: A model for the given fisher projection is to be made, its mirror image is to be drawn, whether the mirror image is same or different from the original structure is to be stated and mirror planes of symmetry that are apparent from Fisher projections are to be drawn.
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 asymmetric carbon atoms are arranged according to their configuration in Fisher projection.
(d)
To determine: A model for the given fisher projection, its mirror image, if mirror image is same or different from the original structure and mirror planes of symmetry that are apparent from Fisher projections.
Interpretation: A model for the given fisher projection is to be made, its mirror image is to be drawn, whether the mirror image is same or different from the original structure is to be stated and mirror planes of symmetry that are apparent from Fisher projections are to be drawn.
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 asymmetric carbon atoms are arranged according to their configuration in Fisher projection.
(e)
To determine: A model for the given fisher projection, its mirror image, if mirror image is same or different from the original structure and mirror planes of symmetry that are apparent from Fisher projections.
Interpretation: A model for the given fisher projection is to be made, its mirror image is to be drawn, whether the mirror image is same or different from the original structure is to be stated and mirror planes of symmetry that are apparent from Fisher projections are to be drawn.
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 asymmetric carbon atoms are arranged according to their configuration in Fisher projection.
(f)
To determine: A model for the given fisher projection, its mirror image, if mirror image is same or different from the original structure and mirror planes of symmetry that are apparent from Fisher projections.
Interpretation: A model for the given fisher projection is to be made, its mirror image is to be drawn, whether the mirror image is same or different from the original structure is to be stated and mirror planes of symmetry that are apparent from Fisher projections are to be drawn.
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 asymmetric carbon atoms are arranged according to their configuration in Fisher projection.
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Organic Chemistry (9th Edition)
- Please answer this NEATLY, COMPLETELY, and CORRECTLY for an UPVOTE. Draw the stereoisomers of the following molecules in flying wedge representation and Fischer projection.arrow_forwardConstruct a model in which a tetrahedral carbon atom has four different colored model atoms attached to it- red, green, orange and white representing 4 different atoms attached to the central atom. a) Does the atom have a plane of symmetry? why or why not? b) Now replace the green atom in your model with a second orange atom. Now two of the groups attached to the carbon atom are identical. Does the model now have a plane of symmetry? Describe it. c)A carbon atom has four different groups attached to the stereogenic center. Draw structural formulas for the following compound and mark stereogenic centers with as asterisk: 1-bromobutane, 2-bromobutane, 1,2-dibromobutane, 1,4-dibromobutane, 2,3-dibromobutane.arrow_forwardDraw the most stable confirmation of CLCH2CH2CH2CH2CL in dash wedge representationarrow_forward
- Click on all of the carbon chirality centers in the molecule below.arrow_forwardWhat's the Fischer Projection of this ? Is it chiral or achiral?arrow_forwardShown below is Streptomycin, and Neomycin B. Circle and label as many functional groups in these molecules as you can. a. Label each chiral carbon in Streptomycin. How many total stereoisomers exist for Streptomycin? b. Label each chiral carbon in Neomycin B. How many total stereoisomers exist for Neomycin B?arrow_forward
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- Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning