Depends on solvent properties:
Polar organic solvents can solve high amounts of HCl ( like Ethanol, Methanol, THF, Dioxan)
In unpolar solvents HCl have low solubility ( like Benzene, Chloroform, Hexane)
Iron oxide is only soluble when placed in concentrated mineral acids. It is insoluble in organic and water based solvents.
yes, it is insoluble in water but slightly soluble in carbon disulphide.
Hexane is a hydrocarbon solvent commonly used in laboratories for extraction purposes, whereas methylene chloride is a chlorinated solvent known for its ability to dissolve a wide range of organic compounds. Both solvents have low boiling points, making them ideal for various applications such as extraction, cleaning, and as reaction solvents in organic chemistry. However, methylene chloride is considered more hazardous due to its potential health effects and environmental concerns.
Water (deionized) dissolves sodium alginate (slow in cold water, faster in hot, but it is not very easy to dissolve, it may take days of constant stirring). Sodium alginate is insoluble in all organic solvents I know about. Alginic acid is insoluble in *anything* (that doesn't react with it chemically).
Solubility in water pH 7: 1.86 x 10-12 g/l (25 °C) With decreasing pH, the solubility increases. Solubility in organic solvents Ferric phosphate is insoluble in organic solvents. Partition co-efficient (log Pow) Not applicable (ferric phosphate is practically insoluble). Hydrolytic stability (DT50) Not applicable (ferric phosphate is practically insoluble in water). Dissociation constant Not applicable (ferric phosphate is practically insoluble in water). Quantum yield of direct phototransformation in water at >290 nm Not applicable (ferric phosphate is practically insoluble in water). The short answer is no.
Anhydrous magnesium chloride is insoluble in organic solvents because it is a highly ionic compound that is held together by strong ionic bonds. Organic solvents are nonpolar in nature and cannot effectively break these ionic bonds to dissolve the compound. Additionally, the high charge density of magnesium ions makes them strongly attracted to water molecules, further decreasing their solubility in organic solvents.
Sodium chloride (NaCl) is not soluble in organic solvents due to its ionic nature. Organic solvents are typically nonpolar, while sodium chloride is an ionic compound that dissolves readily in polar solvents like water. When mixed with an organic solvent, the strong ionic bonds in sodium chloride prevent it from dissolving and instead it remains as solid particles.
Ionic compounds are insoluble in organic solvents because organic solvents do not provide the necessary interactions for ionic bonding to be broken and replaced by interactions with the solvent molecules. Organic solvents lack the ability to stabilize the charged ions in the ionic compound, leading to poor solubility.
Sodium chloride is a polar compound; organic solvents are nonpolar.
Sodium chloride is a molar compound, organic solvents are generally not polar. But sodium chloride is soluble in propylene glycol, formamide, glycerin.
Iron oxide is only soluble when placed in concentrated mineral acids. It is insoluble in organic and water based solvents.
The solubility of zinc oxide varies in different solvents. It is generally insoluble in water but can dissolve in acidic or basic solutions. In organic solvents, such as ethanol or acetone, zinc oxide is also insoluble.
Yes, potassium chloride is soluble in some organic solvents such as acetone and dimethyl sulfoxide (DMSO), but it has limited solubility in most non-polar organic solvents.
Examples: propylene glycol, formamide.
Sodium chloride is very soluble in water but not in organic solvents.
Thorium oxalate is soluble in organic solvents such as ethanol, acetone, and ethyl acetate due to their ability to dissolve polar compounds like oxalates. However, it is insoluble in non-polar solvents such as hexane or toluene.
Many organic compounds are insoluble in water. They have carbon and hydrogen as elements.