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12.2.3: Liquid-Liquid Solutions
https://chem.libretexts.org/Courses/Pasadena_City_College/Chem_2A_(Ku)_Textbook/12%3A_Aqueous_Solutions_and_Concentration/12.02%3A_Formation_of_Solutions/12.2.03%3A_Liquid-Liquid_Solutions
The general rule for deciding if one substance is capable of dissolving another is "like dissolves like". A nonpolar solid such as iodine will dissolve in nonpolar lighter fluid, but will not dissolve...The general rule for deciding if one substance is capable of dissolving another is "like dissolves like". A nonpolar solid such as iodine will dissolve in nonpolar lighter fluid, but will not dissolve in polar water. The nonpolar portion of the molecule increasingly repels the water and eventually overrides the interaction of the polar component with water.
15.6: Liquid-Liquid Solutions
https://chem.libretexts.org/Courses/Modesto_Junior_College/Chemistry_143_-_Bunag/Chemistry_143_-_Introductory_Chemistry_(Bunag)/15%3A_Water/15.06%3A_Liquid-Liquid_Solutions
The general rule for deciding if one substance is capable of dissolving another is "like dissolves like". A nonpolar solid such as iodine will dissolve in nonpolar lighter fluid, but will not dissolve...The general rule for deciding if one substance is capable of dissolving another is "like dissolves like". A nonpolar solid such as iodine will dissolve in nonpolar lighter fluid, but will not dissolve in polar water. The nonpolar portion of the molecule increasingly repels the water and eventually overrides the interaction of the polar component with water.
7.6: Liquid-Liquid Solutions
https://chem.libretexts.org/Courses/Chippewa_Valley_Technical_College/CVTC_Basic_Chemistry/07%3A_Solutions/7.06%3A_Liquid-Liquid_Solutions
The general rule for deciding if one substance is capable of dissolving another is "like dissolves like". A nonpolar solid such as iodine will dissolve in nonpolar lighter fluid, but will not dissolve...The general rule for deciding if one substance is capable of dissolving another is "like dissolves like". A nonpolar solid such as iodine will dissolve in nonpolar lighter fluid, but will not dissolve in polar water. The nonpolar portion of the molecule increasingly repels the water and eventually overrides the interaction of the polar component with water.

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