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Science Chemistry Get Ready for Organic Chemistry

Based on charge stability, the species A-G are to be ranked from the weakest base to the strongest base. Concept introduction: A negatively charged species is less stable than an uncharged species; hence a negatively charged species is more basic. A negative charge is more stable on a more electronegative atom; a positive charge is more stable on a less electronegative atom. Stability of species increases as the number of atoms on which a charge is shared increases. Electron-withdrawing groups stabilize the nearby negative charges but destabilize the nearby positive charges. Electron-donating groups stabilize the nearby positive charge but destabilize the nearby negative charges.

Based on charge stability, the species A-G are to be ranked from the weakest base to the strongest base. Concept introduction: A negatively charged species is less stable than an uncharged species; hence a negatively charged species is more basic. A negative charge is more stable on a more electronegative atom; a positive charge is more stable on a less electronegative atom. Stability of species increases as the number of atoms on which a charge is shared increases. Electron-withdrawing groups stabilize the nearby negative charges but destabilize the nearby positive charges. Electron-donating groups stabilize the nearby positive charge but destabilize the nearby negative charges.

Solution Summary: The author explains that the species A-G are to be ranked from the weakest base to the strongest base based on charge stability.

Get Ready for Organic Chemistry

Get Ready for Organic Chemistry

2nd Edition

ISBN: 9780321774125

Author: KARTY, Joel

Publisher: PEARSON

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Chapter 6, Problem 6.62P

Interpretation Introduction

Interpretation:

Based on charge stability, the species A-G are to be ranked from the weakest base to the strongest base.

Concept introduction:

A negatively charged species is less stable than an uncharged species; hence a negatively charged species is more basic. A negative charge is more stable on a more electronegative atom; a positive charge is more stable on a less electronegative atom. Stability of species increases as the number of atoms on which a charge is shared increases. Electron-withdrawing groups stabilize the nearby negative charges but destabilize the nearby positive charges. Electron-donating groups stabilize the nearby positive charge but destabilize the nearby negative charges.

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Chapter 6, Problem 6.61P

Chapter 6, Problem 6.63P

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Chapter 6 Solutions

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