### Constitutional (Structural) Isomers of Organic Molecules**Instruction:** In the box to the right of each molecule, draw a constitutional (structural) isomer of it.1. **First Molecule (Left to Right)** - **Structure:** The molecule features a three-carbon chain with a bromine (Br) atom attached to the first carbon. - **Box for Isomer:** Draw an alternate structural isomer of the given molecule in the empty box provided.2. **Second Molecule** - **Structure:** The molecule is a four-membered ring with an oxygen (O) atom, highlighting the structure as an epoxide. - **Box for Isomer:** Draw a structural isomer in the box; this should represent a different connectivity but the same molecular formula.3. **Third Molecule** - **Structure:** The structure consists of a three-carbon chain with an amine group (NH₂) attached to the second carbon (middle carbon). - **Box for Isomer:** Draw a structural isomer of this molecule in the provided box, displaying a different connectivity for the same molecular formula.### Detailed Explanation**Diagram Overview:**- The given structures all feature a specific organic molecule with functional groups such as halogens (Br), oxygen in a cyclic form, and amines (NH₂).- The task is to draw a constitutional isomer for each, which is a compound with the same molecular formula but different connectivity of atoms.**Concept Review:**- **Constitutional Isomers:** These are compounds that have the same molecular formula but their atoms are arranged differently in the molecule. This results in different physical and chemical properties.### Common Strategies for Drawing Isomers:1. **Rearrange Carbon Chains:** Change the length or branching of carbon chains while preserving the molecular formula.2. **Shift Functional Groups:** Move functional groups to different positions along the carbon chain or ring.3. **Change Ring Structures:** For cyclic molecules, consider different possible ring sizes or positions of heteroatoms (e.g., O in the case of epoxides).This practice helps in understanding and visualizing how different structures with the same molecular formula can exist, illustrating the concept of isomerism in organic chemistry.

Structural isomers are the isomers that has the same molecular formula but different bond…

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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

Classes Of Functional Groups

Organic Chemistry deals mostly with carbon and hydrogens, also called hydrocarbons, but those groups which replace hydrogen and bonds with carbon to give a characteristic nature, unique of their own, to the hydrocarbon they are attached to, are called functional groups. All the compounds belonging to a functional group undergo reactions in a similar pattern and are known to have similar physical and chemical properties.

Characteristics Of Functional Groups

In organic chemistry, we encounter a number of special substituent groups which are attached to the hydrocarbon backbone. These groups impart certain characteristics to the molecule of which it is a part of and thus, become the highlight of that particular molecule.

IUPAC Nomenclature

In Chemistry, IUPAC stands for International Union of Pure and Applied Chemistry which suggested a systematic naming approach for the organic and inorganic compounds, as in the beginning stage of nomenclature one single chemical compound was named in many ways by which lead to confusion. The need for this approach aroused as the number of chemical compounds newly discovered were increasing (approximately 32 million compounds) and the basic concept of nomenclature i.e. the trivial nomenclature and the derived system of nomenclature failed to overcome the challenge. It is an important task to name a chemical compound systematically and unambiguously which reduces lots of confusion about the newly reported compounds.

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### Constitutional (Structural) Isomers of Organic Molecules

**Instruction:** In the box to the right of each molecule, draw a constitutional (structural) isomer of it.

1. **First Molecule (Left to Right)**
- **Structure:** The molecule features a three-carbon chain with a bromine (Br) atom attached to the first carbon.
- **Box for Isomer:** Draw an alternate structural isomer of the given molecule in the empty box provided.

2. **Second Molecule**
- **Structure:** The molecule is a four-membered ring with an oxygen (O) atom, highlighting the structure as an epoxide.
- **Box for Isomer:** Draw a structural isomer in the box; this should represent a different connectivity but the same molecular formula.

3. **Third Molecule**
- **Structure:** The structure consists of a three-carbon chain with an amine group (NH₂) attached to the second carbon (middle carbon).
- **Box for Isomer:** Draw a structural isomer of this molecule in the provided box, displaying a different connectivity for the same molecular formula.

### Detailed Explanation

**Diagram Overview:**
- The given structures all feature a specific organic molecule with functional groups such as halogens (Br), oxygen in a cyclic form, and amines (NH₂).
- The task is to draw a constitutional isomer for each, which is a compound with the same molecular formula but different connectivity of atoms.

**Concept Review:**
- **Constitutional Isomers:** These are compounds that have the same molecular formula but their atoms are arranged differently in the molecule. This results in different physical and chemical properties.

### Common Strategies for Drawing Isomers:
1. **Rearrange Carbon Chains:** Change the length or branching of carbon chains while preserving the molecular formula.
2. **Shift Functional Groups:** Move functional groups to different positions along the carbon chain or ring.
3. **Change Ring Structures:** For cyclic molecules, consider different possible ring sizes or positions of heteroatoms (e.g., O in the case of epoxides).

This practice helps in understanding and visualizing how different structures with the same molecular formula can exist, illustrating the concept of isomerism in organic chemistry.

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