Ammonia is highly polar and water-soluble, while hexane is a nonpolar solvent. Due to their differing polarities, ammonia does not dissolve well in hexane. The principle of "like dissolves like" applies here, meaning that polar substances typically dissolve in polar solvents, and nonpolar substances dissolve in nonpolar solvents. As a result, ammonia will have negligible solubility in hexane.
In polar solvents it dissolves.As an example water.
Because water is polar. Something that is non-polar doesn't dissolve in water because "like dissolves like."
No.Water can't dissolve non-polar molecules. Water is a polar molecule. Since polar molecules can only dissolve with polar molecules, and non-polar molecules can only dissolve with non-polar molecules, water and non-polar molecules don't react together. Exception:- Some very small non-polar molecules can dissolve in water, like oxygen (O2)
Yes, Neptune does have polar caps. Like Earth and other planets with atmospheres, Neptune's polar regions have icy caps composed of a mixture of water, ammonia, and methane ice. These polar caps experience seasonal variations as Neptune orbits the Sun.
Ammonia is generally not soluble in propylene, which is a nonpolar hydrocarbon. Ammonia is a polar molecule, and its solubility is better in polar solvents like water. The lack of significant interaction between the polar ammonia and nonpolar propylene limits its solubility in the latter.
Ammonia is highly polar and water-soluble, while hexane is a nonpolar solvent. Due to their differing polarities, ammonia does not dissolve well in hexane. The principle of "like dissolves like" applies here, meaning that polar substances typically dissolve in polar solvents, and nonpolar substances dissolve in nonpolar solvents. As a result, ammonia will have negligible solubility in hexane.
Ammonia is soluble in water because it can form hydrogen bonds with water molecules. This allows ammonia to dissociate into ammonium ions (NH4+) and hydroxide ions (OH-) in water, increasing its solubility. Additionally, ammonia and water molecules have similar structures, which further enhances their ability to mix and dissolve in each other.
Oil is nonpolar because it consists of long hydrocarbon chains that do not have any significant charged regions. This means oil is overall neutral and does not interact strongly with polar substances like water.
Yes, but they attract polar molecules more strongly."Hydrophobic" molecules is a misnomer. The nonpolar molecules in question are attracted to water molecules (usually more strongly than they're attracted to each other, even), but they get "shoved out of the way" by polar "hydrophilic" molecules which are even more strongly attracted to water molecules.
No, calcium nitride is not soluble in water due to its low solubility in polar solvents like water. It reacts with water to form calcium hydroxide and ammonia gas.
A non-polar covalent bond does not interact strongly with water because water is a polar molecule due to its uneven distribution of charge. Non-polar covalent bonds have no significant attraction or repulsion towards water molecules.
In polar solvents it dissolves.As an example water.
Polar molecules with positively charged regions, such as ammonia and alcohols like ethanol, are attracted to water due to hydrogen bonding. Additionally, polar molecules with negatively charged regions, such as acetate ions, are also attracted to water for the same reason.
like dissolves like..water is polar so polar or ionic substances will dissolve in water
Naphthalene would be most soluble in non-polar solvents such as benzene or hexane because it is a non-polar molecule. Polar solvents like water would not dissolve naphthalene well due to the lack of strong intermolecular interactions between the polar water molecules and the non-polar naphthalene molecules.
Because water is polar. Something that is non-polar doesn't dissolve in water because "like dissolves like."