**Title: Understanding Acidity in Organic Molecules****Instruction:** In each row, select the molecule with the highlighted hydrogen (H) atom that is more acidic.**Diagram Explanation:**- **Row 1:** - **Left Molecule:** A nitrogen-containing cyclic compound, where a hydrogen atom is highlighted on the nitrogen. - **Right Molecule:** A sulfur-containing cyclic compound, where a hydrogen atom is highlighted on the sulfur. - **Answer:** The molecule on the left is selected (more acidic hydrogen).- **Row 2:** - **Left Molecule:** An organic molecule with a highlighted hydrogen atom on an oxygen adjacent to an alkene. - **Right Molecule:** An organic sulfide with a highlighted hydrogen atom on sulfur. - **Answer:** The molecule on the left is selected (more acidic hydrogen).- **Row 3:** - **Left Molecule:** A cyclic ether with a highlighted hydrogen atom on an oxygen. - **Right Molecule:** A similar cyclic ether with a highlighted hydrogen atom on a different position of oxygen. - **Answer:** The molecule on the right is selected (more acidic hydrogen).- **Row 4:** - **Left Molecule:** A sulfur-containing aromatic compound with a highlighted hydrogen atom on the sulfur. - **Right Molecule:** A nitrogen-containing compound with a highlighted hydrogen atom. - **Answer:** The molecule on the left is selected (more acidic hydrogen).This activity helps in understanding the relative acidity of hydrogen atoms in different functional groups and structural contexts. The image contains two sets of chemical structures, each with two options, accompanied by an interactive circle below each structure for selection purpose.**First Set of Structures (Top):**1. **Left Structure:** - Linear structure: A carbon chain with three carbon atoms. - Attached to the second carbon is a carboxyl group (C=O) with a hydroxyl group (OH). - The carboxyl carbon is presented as carrying an additional hydrogen (positively charged).2. **Right Structure:** - Linear carbon chain featuring three carbon atoms. - Terminated with a thiol group (S−H) attached to the last carbon.**Second Set of Structures (Middle):**1. **Left Structure:** - Six-membered cyclic compound. - Possesses an oxygen atom in the ring and a hydroxyl group bonded outside the ring at a vertex. - Other hydrogen atoms appear bonded to the carbons of the ring.2. **Right Structure:** - Similar six-membered ring as the left structure. - Oxygen atom within the ring, with an external hydroxyl group, appears bonded at the inverse vertex.**Third Set of Structures (Bottom):**1. **Left Structure:** - Six-membered cyclic compound. - Contains a sulfur atom in the ring and a thiol group (S−H) attached externally at the ring.2. **Right Structure:** - Analogous six-membered ring. - Contains a nitrogen atom within the ring, with an additional hydrogen attached externally to it.Each set seems designed for a user interaction where one can select the appropriate chemical structure for a specific purpose or question, likely related to the functional group identity or reactivity based on the embedded atom (oxygen, sulfur, or nitrogen) and attached groups.

Answered: In each row, select the molecule with…

In each row, select the molecule with the highlighted H atom that is more acidic. H H H things have H O yo ye S H H -H N- X S alo

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

Reactive Intermediates

In chemistry, reactive intermediates are termed as short-lived, highly reactive atoms with high energy. They rapidly transform into stable particles during a chemical reaction. In specific cases, by means of matrix isolation and at low-temperature reactive intermediates can be isolated.

Hydride Shift

A hydride shift is a rearrangement of a hydrogen atom in a carbocation that occurs to make the molecule more stable. In organic chemistry, rearrangement of the carbocation is very easily seen. This rearrangement can be because of the movement of a carbocation to attain stability in the compound. Such structural reorganization movement is called a shift within molecules. After the shifting of carbocation over the different carbon then they form structural isomers of the previous existing molecule.

Vinylic Carbocation

A carbocation where the positive charge is on the alkene carbon is known as the vinyl carbocation or vinyl cation. The empirical formula for vinyl cation is C2H3+. In the vinyl carbocation, the positive charge is on the carbon atom with the double bond therefore it is sp hybridized. It is known to be a part of various reactions, for example, electrophilic addition of alkynes and solvolysis as well. It plays the role of a reactive intermediate in these reactions.

Cycloheptatrienyl Cation

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Stability of Vinyl Carbocation

Carbocations are positively charged carbon atoms. It is also known as a carbonium ion.

Question

**Title: Understanding Acidity in Organic Molecules**

**Instruction:** In each row, select the molecule with the highlighted hydrogen (H) atom that is more acidic.

**Diagram Explanation:**

- **Row 1:**
- **Left Molecule:** A nitrogen-containing cyclic compound, where a hydrogen atom is highlighted on the nitrogen.
- **Right Molecule:** A sulfur-containing cyclic compound, where a hydrogen atom is highlighted on the sulfur.
- **Answer:** The molecule on the left is selected (more acidic hydrogen).

- **Row 2:**
- **Left Molecule:** An organic molecule with a highlighted hydrogen atom on an oxygen adjacent to an alkene.
- **Right Molecule:** An organic sulfide with a highlighted hydrogen atom on sulfur.
- **Answer:** The molecule on the left is selected (more acidic hydrogen).

- **Row 3:**
- **Left Molecule:** A cyclic ether with a highlighted hydrogen atom on an oxygen.
- **Right Molecule:** A similar cyclic ether with a highlighted hydrogen atom on a different position of oxygen.
- **Answer:** The molecule on the right is selected (more acidic hydrogen).

- **Row 4:**
- **Left Molecule:** A sulfur-containing aromatic compound with a highlighted hydrogen atom on the sulfur.
- **Right Molecule:** A nitrogen-containing compound with a highlighted hydrogen atom.
- **Answer:** The molecule on the left is selected (more acidic hydrogen).

This activity helps in understanding the relative acidity of hydrogen atoms in different functional groups and structural contexts.

The image contains two sets of chemical structures, each with two options, accompanied by an interactive circle below each structure for selection purpose.

**First Set of Structures (Top):**

1. **Left Structure:**
- Linear structure: A carbon chain with three carbon atoms.
- Attached to the second carbon is a carboxyl group (C=O) with a hydroxyl group (OH).
- The carboxyl carbon is presented as carrying an additional hydrogen (positively charged).

2. **Right Structure:**
- Linear carbon chain featuring three carbon atoms.
- Terminated with a thiol group (S−H) attached to the last carbon.

**Second Set of Structures (Middle):**

1. **Left Structure:**
- Six-membered cyclic compound.
- Possesses an oxygen atom in the ring and a hydroxyl group bonded outside the ring at a vertex.
- Other hydrogen atoms appear bonded to the carbons of the ring.

2. **Right Structure:**
- Similar six-membered ring as the left structure.
- Oxygen atom within the ring, with an external hydroxyl group, appears bonded at the inverse vertex.

**Third Set of Structures (Bottom):**

1. **Left Structure:**
- Six-membered cyclic compound.
- Contains a sulfur atom in the ring and a thiol group (S−H) attached externally at the ring.

2. **Right Structure:**
- Analogous six-membered ring.
- Contains a nitrogen atom within the ring, with an additional hydrogen attached externally to it.

Each set seems designed for a user interaction where one can select the appropriate chemical structure for a specific purpose or question, likely related to the functional group identity or reactivity based on the embedded atom (oxygen, sulfur, or nitrogen) and attached groups.

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