Provide 2 additional resonance structures for the following molecule and draw the electron pushing arrows to arrive at each new structure. The image shows a series of resonance structures for a molecule, depicted inside square brackets, with double-headed arrows between each to indicate the resonance. 1. **First Structure**: On the left, a chemical structure is illustrated with a nitrogen atom (N) bonded to the rest of the structure. Adjacent to the nitrogen is a carbon atom double-bonded to an oxygen atom (a carbonyl group).2. **Double-Headed Arrows**: These arrows indicate that the molecule can undergo resonance, meaning that the electrons are delocalized across the structure, leading to equivalent forms.3. **Brackets**: Each structure is enclosed in square brackets to denote that they are resonance forms of the same compound.This visualization helps to represent the concept of electron delocalization in resonance-stabilized molecules, a key concept in understanding molecular stability in chemistry.

Resonance structures are formed by the delocalisation of electron pair.

Answered: Provide 2 additional resonance…

Provide 2 additional resonance structures for the following molecule and draw the electron pushing arrows to arrive at each new structure.

Organic Chemistry

9th Edition

ISBN:9781305080485

Author:John E. McMurry

Publisher:John E. McMurry

Chapter2: Polar Covalent Bonds; Acids And Bases

Section2.SE: Something Extra

Problem 24MP: Predict the product(s) of the acid/base reactions below. Draw curved arrows to show the formation...

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Question

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Provide 2 additional resonance structures for the following molecule and draw the electron pushing arrows to arrive at each new structure.

The image shows a series of resonance structures for a molecule, depicted inside square brackets, with double-headed arrows between each to indicate the resonance.

1. **First Structure**: On the left, a chemical structure is illustrated with a nitrogen atom (N) bonded to the rest of the structure. Adjacent to the nitrogen is a carbon atom double-bonded to an oxygen atom (a carbonyl group).

2. **Double-Headed Arrows**: These arrows indicate that the molecule can undergo resonance, meaning that the electrons are delocalized across the structure, leading to equivalent forms.

3. **Brackets**: Each structure is enclosed in square brackets to denote that they are resonance forms of the same compound.

This visualization helps to represent the concept of electron delocalization in resonance-stabilized molecules, a key concept in understanding molecular stability in chemistry.

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