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About 6 results
  • 7.3: The Dissolving Process- Ionic Compounds Versus Covalent Compounds
    https://chem.libretexts.org/Courses/Portland_Community_College/CH104%3A_Allied_Health_Chemisty_I_(2nd_Edition)/07%3A_Molecules_Covalent_Bonding_and_the_Nomenclature_of_Binary_Covalent_Compounds/7.03%3A_The_Dissolving_Process-_Ionic_Compounds_Versus_Covalent_Compounds
    When ionic compounds dissolve in water, they separate into cations and anions. An aqueous solution of an ionic compound is composed of individual cations and anions surrounded by water molecules. When...When ionic compounds dissolve in water, they separate into cations and anions. An aqueous solution of an ionic compound is composed of individual cations and anions surrounded by water molecules. When covalent compounds dissolve in water, the molecules remain intact. An aqueous solution of a covalent compound is composed of individual, neutral molecules surrounded by water molecules.
  • 7.3: The Dissolving Process- Ionic Compounds Versus Covalent Compounds
    https://chem.libretexts.org/Courses/Portland_Community_College/CH151%3A_Preparatory_Chemistry/07%3A_Molecules_Covalent_Bonding_and_the_Nomenclature_of_Binary_Covalent_Compounds/7.03%3A_The_Dissolving_Process-_Ionic_Compounds_Versus_Covalent_Compounds
    When ionic compounds dissolve in water, they separate into cations and anions. An aqueous solution of an ionic compound is composed of individual cations and anions surrounded by water molecules. When...When ionic compounds dissolve in water, they separate into cations and anions. An aqueous solution of an ionic compound is composed of individual cations and anions surrounded by water molecules. When covalent compounds dissolve in water, the molecules remain intact. An aqueous solution of a covalent compound is composed of individual, neutral molecules surrounded by water molecules.
  • 15.5: Dissolving Process
    https://chem.libretexts.org/Courses/Modesto_Junior_College/Chemistry_143_-_Bunag/Chemistry_143_-_Introductory_Chemistry_(Bunag)/15%3A_Water/15.05%3A_Dissolving_Process
    The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hyd...The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hydrogen end of the water molecules because they are partially positive. When water dissolves sugar, it separates the individual sugar molecules by disrupting the attractive forces, but does not break the covalent bonds between the carbon, hydrogen, and oxygen atoms.
  • 12.2.2: Dissolving Process
    https://chem.libretexts.org/Courses/Pasadena_City_College/Chem_2A_(Ku)_Textbook/12%3A_Aqueous_Solutions_and_Concentration/12.02%3A_Formation_of_Solutions/12.2.02%3A_Dissolving_Process
    The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hyd...The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hydrogen end of the water molecules because they are partially positive. When water dissolves sugar, it separates the individual sugar molecules by disrupting the attractive forces, but does not break the covalent bonds between the carbon, hydrogen, and oxygen atoms.
  • 7.5: Dissolving Process
    https://chem.libretexts.org/Courses/Chippewa_Valley_Technical_College/CVTC_Basic_Chemistry/07%3A_Solutions/7.05%3A_Dissolving_Process
    The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hyd...The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hydrogen end of the water molecules because they are partially positive. When water dissolves sugar, it separates the individual sugar molecules by disrupting the attractive forces, but does not break the covalent bonds between the carbon, hydrogen, and oxygen atoms.
  • 7.11: Dissolving Process
    https://chem.libretexts.org/Courses/University_of_Pittsburgh_at_Bradford/CHEM_0106%3A_Chemistry_of_the_Environment/07%3A_The_Atmosphere_and_Oceans/7.11%3A_Dissolving_Process
    The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hyd...The positively charged sodium ions in the crystal attract the oxygen end of the water molecules because they are partially negative. The negatively charged chloride ions in the crystal attract the hydrogen end of the water molecules because they are partially positive. When water dissolves sugar, it separates the individual sugar molecules by disrupting the attractive forces, but does not break the covalent bonds between the carbon, hydrogen, and oxygen atoms.

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