The oxygen end, which is the negative pole.
because water is highly polar and Br2 is non-polar so the molecules in the water are more attracted to each other. But methylene chloride is non-polar so its molecules are no more strongly attracted to other methylene chloride molecules than they are to Br2 molecules. Since all of the forces are weak, the substance can dissolve.
Water molecules are attracted to sodium chloride because water is a polar charge. Slightly positive and slightly negative ends on H2O, the sodium chloride Na+ and Cl- attracts to the opposing charge on the water molecule
when hydrogen chloride is dissolved in water to form hydrochloric acid, the hydrogen chloride turns to HCL subscript 38 because of the water molecules. i also believe that they change from clear to a misty green colour but it may just be the result of a dirty test tube.
When ammonium chloride(NH4Cl) is dissolved in water the solvation process itself is a physical change, NH4Cl changes from one of its state (crystalline) to solution, where NH4+ and Cl- ions are surrounded by water molecules.
Potassium chloride is an ionic compound, composed of positive potassium ions and negative chloride ions. When it dissolves in water, the ions separate and become surrounded by water molecules. Water is a covalent compound, but it is polar, which means that one end (the oxygen) is a little bit negative, and the other is a little bit positive. The slightly negative ends are attracted to the positive potassium ions and the slightly positive ends are attracted to the chloride ions. These are electrostatic attractions.
The oxygen end, which is the negative pole.
Ion-dipole attraction dictates that the negative pole of a water molecule will be attracted to the sodium cation and the positive pole of a water molecule will be attracted to the chloride anion.
Sodium chloride is dissociated in water being an ionic compound.
Hydrochloric acid (HCl) is a molecule composed of hydrogen and chlorine atoms. It is a covalent compound formed by the sharing of electrons between the atoms.
because water is highly polar and Br2 is non-polar so the molecules in the water are more attracted to each other. But methylene chloride is non-polar so its molecules are no more strongly attracted to other methylene chloride molecules than they are to Br2 molecules. Since all of the forces are weak, the substance can dissolve.
When sodium chloride is dissolved in water, the sodium ions are attracted to the partially negative oxygen atoms of water molecules. These oxygen atoms have a slight negative charge due to their higher electronegativity compared to hydrogen atoms. This attraction results in the formation of a hydration shell around the sodium ions.
Water molecules are attracted to sodium chloride because water is a polar charge. Slightly positive and slightly negative ends on H2O, the sodium chloride Na+ and Cl- attracts to the opposing charge on the water molecule
Yes, the dissociation of salts in water results in the formation of ions that are more stable in solution than the original salt molecules. This process helps increase the solubility of the salt in water by breaking down the crystal lattice structure and allowing the individual ions to interact with the water molecules.
Ammonium chloride is not attracted by magnets.
when hydrogen chloride is dissolved in water to form hydrochloric acid, the hydrogen chloride turns to HCL subscript 38 because of the water molecules. i also believe that they change from clear to a misty green colour but it may just be the result of a dirty test tube.
The ions making up the solid salt disassociate in to Na+ and Cl-.
Fats and oils are nonpolar, so they will remain separate from molecules of a polar solvent such as water. Sodium and chloride ions are attracted to charged regions on molecules of polar solvents such as water.