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(a)
Interpretation:
The specific relationship between the given pair of molecules is to be identified.
Concept introduction:
If two cyclic molecules have different molecular formula, they are unrelated molecules. If they have the same molecular formula, same connectivity, and can be interconverted by a chair flip, they are conformers. Configurational isomers are the isomers having the same connectivity of atoms but differ in spatial arrangement at chiral centers. If configurational isomers have different configuration at each chiral center, they are enantiomers. If they differ in configuration at some but not all chiral centers, they are diastereomers.
(b)
Interpretation:
The specific relationship between the given pair of molecules is to be identified.
Concept introduction:
If two cyclic molecules have different molecular formula, they are unrelated molecules. If they have the same molecular formula, same connectivity, and can be interconverted by a chair flip, they are conformers. Configurational isomers are the isomers having the same connectivity of atoms but differ in spatial arrangement at chiral centers. If configurational isomers have different configuration at each chiral center, they are enantiomers. If they differ in configuration at some but not all chiral centers, they are diastereomers.
(c)
Interpretation:
The specific relationship between the given pair of molecules is to be identified.
Concept introduction:
If two cyclic molecules have different molecular formula, they are unrelated molecules. If they have the same molecular formula, same connectivity, and can be interconverted by a chair flip, they are conformers. Configurational isomers are the isomers having the same connectivity of atoms but differ in spatial arrangement at chiral centers. If configurational isomers have different configuration at each chiral center, they are enantiomers. If they differ in configuration at some but not all chiral centers, they are diastereomers.
(d)
Interpretation:
The specific relationship between the given pair of molecules is to be identified.
Concept introduction:
If two cyclic molecules have different molecular formula, they are unrelated molecules. If they have the same molecular formula, same connectivity, and can be interconverted by a chair flip, they are conformers. Configurational isomers are the isomers having the same connectivity of atoms but differ in spatial arrangement at chiral centers. If configurational isomers have different configuration at each chiral center, they are enantiomers. If they differ in configuration at some but not all chiral centers, they are diastereomers.
(e)
Interpretation:
The specific relationship between the given pair of molecules is to be identified.
Concept introduction:
If two cyclic molecules have different molecular formula, they are unrelated molecules. If they have the same molecular formula, same connectivity, and can be interconverted by a chair flip, they are conformers. Configurational isomers are the isomers having the same connectivity of atoms but differ in spatial arrangement at chiral centers. If configurational isomers have different configuration at each chiral center, they are enantiomers. If they differ in configuration at some but not all chiral centers, they are diastereomers.
(f)
Interpretation:
The specific relationship between the given pair of molecules is to be identified.
Concept introduction:
If two cyclic molecules have different molecular formula, they are unrelated molecules. If they have the same molecular formula, same connectivity, and can be interconverted by a chair flip, they are conformers. Configurational isomers are the isomers having the same connectivity of atoms but differ in spatial arrangement at chiral centers. If configurational isomers have different configuration at each chiral center, they are enantiomers. If they differ in configuration at some but not all chiral centers, they are diastereomers.
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Chapter 5 Solutions
Organic Chemistry: Principles And Mechanisms
- Draw both chair conformers of ethylcyclohexane. Identify which is lower in energy.arrow_forwardDetermine the # of chiral centers. Determine the most stable chair conformation then indicate which are equatorial and which are axial.arrow_forwardI put these two and apprently something is not right...arrow_forward
- a) Draw the following compound in topological structure (zig-zag) and name the conformation that is drawn: b) Determine if each of the following molecules is an enantiomer, a diastereoisomer, an isomer in constitution or identical to the molecule in (a) and which is drawn in the box. Solve all parts otherwise I will downvotearrow_forwardState how attached pair of compounds is related. Are they enantiomers, diastereomers, constitutional isomers, or identical?arrow_forward6. State the relationship between each of the following pairs of structures (same, enantiomers, diastereomers, constitutional isomers or different compound that are not isomeric). b CH3 CH3 **CH3 a CH3 OH OH O d d .& & Br s s C/.. CI Br Да Br Bridarrow_forward
- Give typed explanation of all four subparts otherwise leave itarrow_forwardDraw the two chair forms for the attached trisubstituted cyclohexane, andlabel the more stable conformation.arrow_forwardDraw both chair conformers for the following molecule and circle the most stable conformation.arrow_forward
- Draw both chair Conformers of chlorocylohexane. How much higher in energy is the less stable Conformer?arrow_forwardDraw a chair conformation of this molecule with (a) all CH3 groups in axial positions and (b) all CH3 groups in equatorial positions.arrow_forwardDrawn are four isomeric dimethylcyclopropanes. Would an equal mixture of compounds C and D be optically active?What about an equal mixture of B and C?arrow_forward
Organic Chemistry: A Guided InquiryChemistryISBN:9780618974122Author:Andrei StraumanisPublisher:Cengage Learning