(а) CH;CH2-C-CH;CH3 OH no chiral atoms (b) || H. CH3CH2-C-C-CI Он no chiral atoms (с) OH C-CH2CH- ČH3

Decide whether or not it can have enantiomers? If yes, click on any chiral carbon atoms in the molecule. If no, click on "no chiral atoms."

I JUST NEED D ANSWERED AND EXPLAINED PLEASE!!!

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**Chemical Structures and Chirality** The following diagrams depict various organic compounds and indicate the presence or absence of chiral atoms. **(a)** The structure shows a carbon chain with the formula \( \text{CH}_3\text{CH}_2\text{-C(OH)-CH}_2\text{CH}_3 \). It is noted that this compound has "no chiral atoms." **(b)** This diagram represents another compound structure with the formula \( \text{CH}_3\text{CH}_2\text{-C(OH)(C=O)Cl} \). Again, it is specified that there are "no chiral atoms" in this molecule. **(c)** The depicted molecule features a cyclic structure with the group \( \text{CH}_3\text{CH}_2\text{-C(OH)CH}_3 \) attached to it. The annotation states that there are "no chiral atoms" present in this configuration. **(d)** The final diagram showcases a cyclic structure containing a bromine (\( \text{Br} \)) substituent. It is also indicated that this compound has "no chiral atoms." These diagrams illustrate examples of organic molecules, each labeled to emphasize the absence of chirality within the depicted chemical contexts.