What are resonance structures and how can I understand them better?

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Discussion Overview

The discussion centers around the concept of resonance structures in chemistry, specifically addressing how to understand and set them up in comparison to Lewis structures and electron dot diagrams. Participants explore the theoretical implications and practical applications of resonance structures.

Discussion Character

  • Exploratory, Conceptual clarification, Debate/contested

Main Points Raised

  • One participant expresses confusion about the setup of resonance structures and their application compared to Lewis structures.
  • Another participant explains that resonance structures represent a combination of possible configurations of a molecule, using NO2 as an example to illustrate the concept of partial double bond character.
  • A different viewpoint suggests that resonance is an artifact of valence bond theory, emphasizing that no single structure can fully describe the chemical behavior of certain molecules.
  • One participant notes that the term "resonance" can be misleading, proposing that "contributing structures" might be a more accurate term to describe the multiple structures that contribute to the overall molecular description.

Areas of Agreement / Disagreement

Participants express varying degrees of understanding and interpretation of resonance structures, with no consensus reached on a definitive explanation or method for setting them up.

Contextual Notes

Some limitations include the potential misunderstanding of the term "resonance" and the complexity of visualizing electron behavior in resonance structures versus static representations.

Who May Find This Useful

Students learning about molecular structures, educators seeking to clarify resonance concepts, and individuals interested in the theoretical aspects of chemistry.

emily(:
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My teacher is explaining resonance structures in class, but I don't understand it that well. Can someone please help? (:
 
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The setup of them, I just don't understand them, like at all. I know that they provide more information than the Lewis structure, however I just don't know how to set them up correctly, or when you would want to use them over the Lewis structure or the electron dot diagram.
 
You still haven't been too helpful in giving me a place a start... so again, I recommend reading the Wikipedia article, and doing a google search. That being said, let me say a few general things.

If you have a molecule---lets say NO2 (the example in the wikipedia article)---which has two (or more) possible configurations, it will often be in a combination between the possible states. In the figure, NO2 can have a double bond with either the left oxygen, or the right oxygen. In nature, NO2 will actual have kind of a 1 and a half bond on each side---more accurately, it will have partial double bond character. It other words it will 'resonate' between single and double bonds on each side.

Thus, the electron dot depictions aren't very accurate. Resonance structures are a way of trying to better describe the actual situation.

The reason molecules 'resonate,' is becomes it makes them more stable. The NO2 molecule is more stable with the double bond electrons shared between both sides of the molecule, than it would be if they were attached to only one side.

Let me know if there is something in particular I (or the forums in general) can try to elaborate on, or explain better. Please try to be precise.
 
Emily, I don't blame you: the idea of resonance is kind of nebulous.

What it comes down to is that "resonance" is an artifact of valence bond theory/electron dot drawings on sheets of paper. We simply cannot draw a single structure that describes the chemical reactivities of certain molecules. So we draw several "contributing structures" with the understanding that none of them individually represents the "complete" description of the molecule. Instead, the best description of the molecule is that it is ALL of the contributing structures at the same time--pretty weird, eh? It's called quantum superposition :)

It's important to remember that the electrons aren't "shifting" between two resonance structures, so the term "resonance" is actually a bit misleading. The term "contributing structures" is more appropriate because multiple structures, frozen in drawings on paper, are contributing to the overall description of the chemical behavior of the molecule.
 
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Thank you both for your responses. The description I gave is the best I way I could explain my problem.
 

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