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O-O +C=C' 4- 'H

O-O +C=C' 4- 'H

Chemistry
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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Draw water molecules interacting with each possible point of the molecules below, use partial charges and proper notation to differentiate between weak and strong bonds. 

### Chemical Structures of Common Molecules In this section, we will examine two fundamental chemical structures that are significant in various chemical reactions and biological processes. #### Hydrogen Sulfide (H₂S) On the left side of the image, we have the chemical structure of Hydrogen Sulfide (H₂S). - **Description:** The molecule consists of two Hydrogen atoms (H) bonded to a central Sulfur atom (S). - **Bond Angles:** The bond angle between the hydrogen atoms is approximately 92 degrees. - **Significance:** Hydrogen Sulfide is a simple and essential sulfur-containing compound often found in natural gas and petroleum. It is known for its characteristic foul odor of rotten eggs. #### Ethanol (C₂H₄OH) On the right side of the image, we see the chemical structure of Ethanol (C₂H₄OH). - **Description:** The structure comprises: - Two Carbon atoms (C) connected by a double bond. - Each Carbon atom is also bonded to two Hydrogen atoms (H). - One of the Carbon atoms is additionally bonded to a hydroxyl group (-OH), making it an alcohol. - **Bond Angles and Arrangement:** The molecule exhibits a planar structure around the double bond with bond angles in a trigonal planar configuration around each Carbon due to the double bond (approximately 120 degrees). ### Explanation of the Diagrams - **Hydrogen Sulfide (H₂S):** - Each bond is represented by a single line between the atoms, indicating single covalent bonds. - **Ethanol (C₂H₄OH):** - The double bond between the Carbon atoms is represented by two parallel lines. - The single bonds to Hydrogen and the Hydroxyl group are indicated by single lines. ### Conclusion Understanding these basic chemical structures is crucial in studying more complex biochemical processes and reactions. Hydrogen Sulfide and Ethanol serve as foundational molecules for various chemical phenomena and industrial applications.
Transcribed Image Text:### Chemical Structures of Common Molecules In this section, we will examine two fundamental chemical structures that are significant in various chemical reactions and biological processes. #### Hydrogen Sulfide (H₂S) On the left side of the image, we have the chemical structure of Hydrogen Sulfide (H₂S). - **Description:** The molecule consists of two Hydrogen atoms (H) bonded to a central Sulfur atom (S). - **Bond Angles:** The bond angle between the hydrogen atoms is approximately 92 degrees. - **Significance:** Hydrogen Sulfide is a simple and essential sulfur-containing compound often found in natural gas and petroleum. It is known for its characteristic foul odor of rotten eggs. #### Ethanol (C₂H₄OH) On the right side of the image, we see the chemical structure of Ethanol (C₂H₄OH). - **Description:** The structure comprises: - Two Carbon atoms (C) connected by a double bond. - Each Carbon atom is also bonded to two Hydrogen atoms (H). - One of the Carbon atoms is additionally bonded to a hydroxyl group (-OH), making it an alcohol. - **Bond Angles and Arrangement:** The molecule exhibits a planar structure around the double bond with bond angles in a trigonal planar configuration around each Carbon due to the double bond (approximately 120 degrees). ### Explanation of the Diagrams - **Hydrogen Sulfide (H₂S):** - Each bond is represented by a single line between the atoms, indicating single covalent bonds. - **Ethanol (C₂H₄OH):** - The double bond between the Carbon atoms is represented by two parallel lines. - The single bonds to Hydrogen and the Hydroxyl group are indicated by single lines. ### Conclusion Understanding these basic chemical structures is crucial in studying more complex biochemical processes and reactions. Hydrogen Sulfide and Ethanol serve as foundational molecules for various chemical phenomena and industrial applications.
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