major substitution and major elimination products

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
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What are the major substitution and major elimination products?

### Reaction G: Chemical Reaction with NaOH

#### Description

The image illustrates a chemical reaction labeled as "Rxn G". The starting compound is a molecular structure with an iodine (I) atom and a hydroxyl group (H₃C) attached to a carbon chain. This structure is subjected to a reaction in the presence of sodium hydroxide (NaOH).

#### Molecular Structure

- **Reactant**: The structure is a branched carbon chain with an iodine atom attached to one of the tertiary carbon atoms. There is also a methyl group attached to the secondary carbon, adjacent to the iodine.

- **Reagent**: NaOH (sodium hydroxide) is used as the reagent in this reaction.

#### Reaction Mechanism

The reaction mechanism is not explicitly outlined in this diagram, as the product sections are blank. However, considering the presence of NaOH, the reaction may involve a substitution or elimination process. Typically, NaOH can induce elimination reactions, particularly in halogenated compounds.

#### Blank Sections

Two blank rectangles are present, presumably meant for illustrating the products or further detailing the mechanism of the reaction. These sections are meant to be filled with the expected outcome(s) of the reaction.

### Educational Context

This diagram can be used in educational settings to teach:

1. **Reaction Types**: Understanding substitution and elimination reactions involving haloalkanes and the role of bases like NaOH.
2. **Reaction Mechanisms**: Drawing mechanisms for reactions involving secondary and tertiary carbon centers.
3. **Predicting Products**: Developing skills to predict and draw the products of given reactants and reaction conditions.

Instructors can use this example to engage students in predicting reaction outcomes, forming hypotheses about the reaction mechanism, and discussing factors that influence reaction pathways.
Transcribed Image Text:### Reaction G: Chemical Reaction with NaOH #### Description The image illustrates a chemical reaction labeled as "Rxn G". The starting compound is a molecular structure with an iodine (I) atom and a hydroxyl group (H₃C) attached to a carbon chain. This structure is subjected to a reaction in the presence of sodium hydroxide (NaOH). #### Molecular Structure - **Reactant**: The structure is a branched carbon chain with an iodine atom attached to one of the tertiary carbon atoms. There is also a methyl group attached to the secondary carbon, adjacent to the iodine. - **Reagent**: NaOH (sodium hydroxide) is used as the reagent in this reaction. #### Reaction Mechanism The reaction mechanism is not explicitly outlined in this diagram, as the product sections are blank. However, considering the presence of NaOH, the reaction may involve a substitution or elimination process. Typically, NaOH can induce elimination reactions, particularly in halogenated compounds. #### Blank Sections Two blank rectangles are present, presumably meant for illustrating the products or further detailing the mechanism of the reaction. These sections are meant to be filled with the expected outcome(s) of the reaction. ### Educational Context This diagram can be used in educational settings to teach: 1. **Reaction Types**: Understanding substitution and elimination reactions involving haloalkanes and the role of bases like NaOH. 2. **Reaction Mechanisms**: Drawing mechanisms for reactions involving secondary and tertiary carbon centers. 3. **Predicting Products**: Developing skills to predict and draw the products of given reactants and reaction conditions. Instructors can use this example to engage students in predicting reaction outcomes, forming hypotheses about the reaction mechanism, and discussing factors that influence reaction pathways.
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