Hardly, because in order to be dissolved, ionic compound requires the existence of electrostatic forces that pulls apart the atoms that form the molecule to be solvated. Non-polar solvents do not develop the enough attractive forces to separate atoms strongly bonded in ionic compounds to solvate them.
Perhaps very very small quantities, but nothing significant.
Nonpolar materials will stick together, and so will polar materials. "Hydrophobic" is one way of saying nonpolar, which literally means afraid of water.
Think about the behavior of oil and water. If you pour a little oil in water and beat it, you might be able to break it into slightly small globules, but it'll tend to come back together again.
c.) btw, you fairly ought to p.c.. up a chemistry e book. it truly is easy chemistry and not something confusing to remember. Asking each and every question on yahoo solutions you run into is going to circulate away you discovering no longer something.
Answers & Comments
Verified answer
Hardly, because in order to be dissolved, ionic compound requires the existence of electrostatic forces that pulls apart the atoms that form the molecule to be solvated. Non-polar solvents do not develop the enough attractive forces to separate atoms strongly bonded in ionic compounds to solvate them.
Good luck!
Perhaps very very small quantities, but nothing significant.
Nonpolar materials will stick together, and so will polar materials. "Hydrophobic" is one way of saying nonpolar, which literally means afraid of water.
Think about the behavior of oil and water. If you pour a little oil in water and beat it, you might be able to break it into slightly small globules, but it'll tend to come back together again.
c.) btw, you fairly ought to p.c.. up a chemistry e book. it truly is easy chemistry and not something confusing to remember. Asking each and every question on yahoo solutions you run into is going to circulate away you discovering no longer something.