Write a mechanism for the step shown below, using curved arrows to show electron redistribution. Arrow-pushing Instructions 00 →X

Chemistry
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Chapter1: Chemical Foundations
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Write a mechanism for the step shown below using curved arrows to show electron distribution. Please show if it should be a single sided arrow instead of double. 

**Step 3: Arrow-Pushing Mechanism for Electron Redistribution**

**Instructions:**
- Write a mechanism for the step shown below, using curved arrows to show electron redistribution.

**Reaction Components:**

1. **Reactant Structure:**
   - A benzene ring attached to a ketone, which is connected to a carbon chain on the left.

2. **Reagent Structures:**
   - **Grignard Reagent:** 
     - The first Grignard reagent is represented by "BrMg" with a benzene ring. The magnesium bromide is attached to the benzene.
     - The second Grignard reagent is "BrMgOCH₂CH₃," where the magnesium bromide is connected to an ethoxy group.

**Diagram Explanation:**

- The mechanism should illustrate curved arrows starting from the electron-rich areas (lone pairs or pi bonds) pointing towards electron-deficient areas (such as positive charges or partial positive charges).
- The expected movement of electrons includes attacks on the carbonyl group by the Grignard reagents, forming new bonds, and potentially altering the hybridization states of involved atoms.
- The rightward arrow suggests the formation of a new intermediate product as a result of the electron redistributions.

**Note:** Ensure proper arrow-pushing techniques, showing the accurate flow of electrons for a clear understanding of reaction mechanisms.

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Transcribed Image Text:**Step 3: Arrow-Pushing Mechanism for Electron Redistribution** **Instructions:** - Write a mechanism for the step shown below, using curved arrows to show electron redistribution. **Reaction Components:** 1. **Reactant Structure:** - A benzene ring attached to a ketone, which is connected to a carbon chain on the left. 2. **Reagent Structures:** - **Grignard Reagent:** - The first Grignard reagent is represented by "BrMg" with a benzene ring. The magnesium bromide is attached to the benzene. - The second Grignard reagent is "BrMgOCH₂CH₃," where the magnesium bromide is connected to an ethoxy group. **Diagram Explanation:** - The mechanism should illustrate curved arrows starting from the electron-rich areas (lone pairs or pi bonds) pointing towards electron-deficient areas (such as positive charges or partial positive charges). - The expected movement of electrons includes attacks on the carbonyl group by the Grignard reagents, forming new bonds, and potentially altering the hybridization states of involved atoms. - The rightward arrow suggests the formation of a new intermediate product as a result of the electron redistributions. **Note:** Ensure proper arrow-pushing techniques, showing the accurate flow of electrons for a clear understanding of reaction mechanisms. **Button:** - Submit
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Step 1

Solution:

Nucleophilic addition reaction is mainly monitored by attacking nucleophile, If there is steric hinderance then it is difficult for nucleophile to attack in such cases either reaction will not proceed or very small amount of yield occurred.

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