Because acetone may be polar but also non polar.
Pure isolated chlorophyll is soluble in acetone
yes it is soluble "soluble" is not a scientific term. But most agree that a solubility of .001 molar is not really soluble. If you look for the actual solubility, you will find by that definition, LiF is not soluble in water. (or at the least, slightly soluble in water.) Anyone who says LiF is soluble n water has never done an experiment in the lab to see that lithium fluoride precipitates very nicely out of water when formed.
Yes, lithium chloride (LiCl) is highly soluble in water. When dissolved, it dissociates into lithium ions (Li⁺) and chloride ions (Cl⁻), making it effective in various applications, including as a desiccant and in chemical synthesis. Its solubility in water is due to the strong interactions between the ions and water molecules.
The name of a binary compound made up lithium and chlorine is lithium chloride.
no
Yes, to an extent of about one-fifth of the (high) solubility of lithium iodide in water.
Yes, lithium chloride is more soluble.
You are misinformed, Lithium Chloride IS soluble in water.
Caffeine is more soluble in methylene chloride than in acetone. Methylene chloride is a non-polar solvent, while caffeine is a polar compound. Polar compounds like caffeine tend to be more soluble in non-polar solvents like methylene chloride.
Yes, lithium chloride is soluble in ethanol, although it may not be as soluble as in water. Upon dissolving in ethanol, lithium chloride will form a clear solution.
Sodium chloride and lithium chloride are very soluble in water.
Lithium Sulfate (Li2SO4) is, indeed, SOLUBLE because the anion (SO4 2-) is soluble in an aqueous solution. Likewise, the Lithium cation (Li +) is soluble because it is located in the 1A family (or group), which consists of the Alkali Earth Metals, which are all soluble in an aqueous solution. Therefore, Lithium Sulfate is SOLUBLE.
Lithium chloride is highly soluble in water because it forms strong electrostatic interactions with water molecules, breaking into lithium cations and chloride anions that are easily dispersed and surrounded by water molecules to form a stable solution. Additionally, the small size of the lithium cation and the high charge density contribute to its high solubility in water.
Lithium chloride is insoluble in water because it forms a strong ionic bond between the lithium cation and the chloride anion. This bond is stronger than the interaction between the ions and water molecules, preventing the lithium chloride from dissociating and dissolving in water.
It is like 0.0024g of KCl per 100g of acetonitrile at 25oC. Link: http://potassiumchloride.in/
Pure isolated chlorophyll is soluble in acetone
Because water and some salts are polar compounds. Soluble are: sodium chloride, potassium chloride, magnesium sulfate, uranyl nitrate, calcium chloride, lithium chloride, sodium nitrate, sodium carbonate, ammonium chloride etc.