**Resonance Structures and Charge Separation in Aromatic Compounds**The following molecule presented can be represented as a hybrid of several resonance contributors. The task is to draw a resonance contributor that involves the separation of charges, specifically placing one of the charges on position 2 of the benzene ring.**Diagram Description:**The image contains a structural diagram of an aromatic ketone featuring a phenyl group directly attached to a carbonyl group (C=O).- The benzene ring is numbered with positions 1 and 2 marked.- Position 1 is directly attached to the carbonyl group.**Instructions:**- In the box provided below the diagram, draw a resonance contributor for the molecule that clearly demonstrates charge separation.- Ensure that one of the charges is at position 2 of the benzene ring.**Note:**- Do not include lone pairs in your drawing; they will not be taken into account for the grading.

In the formation of the chemical bond with the same or different elements, all elements tend to complete their octet configuration. It is known as Octet rule.The octet configuration (means 8 electrons in the valence shell of the bonded atom) can be achieved by either sharing of electrons to form a covalent bond or by the complete transfer of electrons that leads to the formation of an ionic bond.Electrophilic substitution reactions are most common reactions of aromatic compounds. In these reactions, an electrophile attacks on aromatic ring to form an intermediate which is stabilize by resonance.The -CHO group on benzene ring is a deactivating group due to its -M effect as it pulls the electron density from the benzene ring and induces positive charge at ortho and para positions. Due to this, the -CHO group on benzene ring is a meta directing group. Thus, the resonating structures of benzaldehyde can be shown as:Answer:

Science

Chemistry

The following molecule can be drawn as a hybrid of several resonance contributors. In the box below, draw a resonance contributor that involves separation of charges; put one of the charges on position 2 of the ring.

The following molecule can be drawn as a hybrid of several resonance contributors. In the box below, draw a resonance contributor that involves separation of charges; put one of the charges on position 2 of the ring.

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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Concept explainers

Electronic Effects

The effect of electrons that are located in the chemical bonds within the atoms of the molecule is termed an electronic effect. The electronic effect is also explained as the effect through which the reactivity of the compound in one portion is controlled by the electron repulsion or attraction producing in another portion of the molecule.

Drawing Resonance Forms

In organic chemistry, resonance may be a mental exercise that illustrates the delocalization of electrons inside molecules within the valence bond theory of octet bonding. It entails creating several Lewis structures that, when combined, reflect the molecule's entire electronic structure. One Lewis diagram cannot explain the bonding (lone pair, double bond, octet) elaborately. A hybrid describes a combination of possible resonance structures that represents the entire delocalization of electrons within the molecule.

Using Molecular Structure To Predict Equilibrium

Equilibrium does not always imply an equal presence of reactants and products. This signifies that the reaction reaches a point when reactant and product quantities remain constant as the rate of forward and backward reaction is the same. Molecular structures of various compounds can help in predicting equilibrium.

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**Resonance Structures and Charge Separation in Aromatic Compounds**

The following molecule presented can be represented as a hybrid of several resonance contributors. The task is to draw a resonance contributor that involves the separation of charges, specifically placing one of the charges on position 2 of the benzene ring.

**Diagram Description:**

The image contains a structural diagram of an aromatic ketone featuring a phenyl group directly attached to a carbonyl group (C=O).

- The benzene ring is numbered with positions 1 and 2 marked.
- Position 1 is directly attached to the carbonyl group.

**Instructions:**

- In the box provided below the diagram, draw a resonance contributor for the molecule that clearly demonstrates charge separation.
- Ensure that one of the charges is at position 2 of the benzene ring.

**Note:**

- Do not include lone pairs in your drawing; they will not be taken into account for the grading.

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