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Welcome to insideCBU Content Week 8 Detalled Outline pearson mastering Course Home on.com/?courseld=13281942\#| Portfoli... Martinez-ENG113 Nursing Assistant... Lippincott | thePoint Free CNA Practice... Annette_Billups |... PAL 4.0 Complete the following paragraph to describe how the electrostatic forces in salt compounds can be overcome by interactions between the solvent molecule and the salt compounds. Match the words in the left column to the appropriate blanks in the sentences on the right. Make certain each sentence is complete before submit your answer. View Available Hint(s) Reset Help covalent bonds dispersion forces soluble ionic bonds higher insoluble ion-dipole forces dipole-dipole forces Salts are composed of ions that form a tightly packed and ordered network, which is called a crystal lattice, and it is held together by \( \square \) . When a salt is added to a polar solvent like water, the ions interact with the solvent molecules via \( \square \) , which overcome the forces originally holding the ions together. The ions are then isolated and stabilized in solution via these interactions, and when this occurs for most of the salt compound, it is considered \( \square \) in that solvent. Due to the nature of the interaction between ions and solvent molecules, a \( \square \) concentration of ions can be dissolved in water than in alcohol. hydrogen bonds Copyright © 2025 Pearson Education Inc. All rights reserved. I Terms of Use I Privacy Policy. I Permissions I Contact Us I Cookie Sett

Ask by Davies Moreno. in the United States
Mar 10,2025

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1. The crystal lattice of a salt is held together by **ionic bonds**. 2. When a salt is added to a polar solvent like water, the ions interact with the solvent molecules via **ion-dipole forces**, which overcome the forces originally holding the ions together. 3. Once the ions are isolated and stabilized by these interactions, the salt is considered **soluble** in that solvent. 4. Due to the nature of the interaction between ions and solvent molecules, a **higher** concentration of ions can be dissolved in water than in alcohol.

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1. The crystal lattice of a salt is held together by \( \textbf{ionic bonds} \). 2. When a salt is added to a polar solvent like water, the ions interact with the solvent molecules via \( \textbf{ion-dipole forces} \), which overcome the forces originally holding the ions together. 3. Once the ions are isolated and stabilized by these interactions, the salt is considered \( \textbf{soluble} \) in that solvent. 4. Due to the nature of the interaction between ions and solvent molecules, a \( \textbf{higher} \) concentration of ions can be dissolved in water than in alcohol. Thus, the blanks are filled as follows: - ionic bonds - ion-dipole forces - soluble - higher

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Salt compounds, like table salt, are made up of positive and negative ions that create a strong ionic bond, forming a crystal lattice structure. When placed in a polar solvent such as water, the molecules interact with the ions through ion-dipole forces. This interaction is stronger than the ionic bonds holding the crystals together, allowing the ions to break free and dissolve, demonstrating the importance of solvent polarity in solubility. Interestingly, the ability of salts to dissolve in water varies significantly depending on their chemical structure. For example, some salts like sodium chloride are highly soluble in water, while others, like barium sulfate, remain mostly insoluble due to the strength of their ionic bonds overcoming the ion-dipole interactions. This fascinating balance between bond strength and solvent interactions is crucial for many biological and chemical processes, influencing everything from nutrient absorption in our bodies to the behavior of electrolytes in solution!

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