Chemical Reaction and Optical Activity: Understanding the Presence of Chiral Centers

What is the significance of chiral centers in determining optical activity?

A. They allow for non-superimposable mirror images

B. They are typically found in planar molecular structures

C. They are irrelevant in the context of optical activity

D. They result in a lack of double bonds

Answer:

The significance of chiral centers in determining optical activity is that they allow for non-superimposable mirror images, or enantiomers, which rotate plane-polarized light in opposite directions.

To determine if the major product of a reaction is optically active, it is essential to identify the presence of chiral centers or asymmetric carbons within the molecule. A molecule is generally considered optically active if it has the ability to rotate the plane of plane-polarized light, which occurs due to the presence of these chiral centers.

Option A, Presence of chiral center, indicates optical activity as chiral centers allow for non-superimposable mirror images, or enantiomers, which rotate plane-polarized light in opposite directions. Chiral centers are atoms, typically carbon, bonded to four distinct substituents. In contrast, option B, Planar molecular structure, typically applies to molecules with double bonds or carbocation intermediates which are sp2 hybridized, resulting in a trigonal planar shape that does not support optical activity due to a lack of chiral centers. Option C, Lack of double bonds, is irrelevant in the context of optical activity as double bonds do not inherently prevent or contribute to chirality. And lastly, option D, Symmetric arrangement of substituents, implies an absence of chirality since symmetric molecules have superimposable mirror images and do not exhibit optical activity.

Thus, when analyzing the reactions, if the major product has a chiral center that is not nullified by a symmetrical arrangement of substituents, the product will be optically active. If the molecule has a planar structure or a symmetric arrangement of substituents, it will not be optically active.

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