Ca2+ and O2-
When an acid dissolves in water hydrogen ions bond with water to form hydronium ions, H3O+ When bases dissolve in water, hydroxide ions are formed, OH-
When an acid dissolves in water hydrogen ions bond with water to form hydronium ions, H3O+ When bases dissolve in water, hydroxide ions are formed, OH-
When an acid dissolves in water hydrogen ions bond with water to form hydronium ions, H3O+ When bases dissolve in water, hydroxide ions are formed, OH-
When an acid dissolves in water hydrogen ions bond with water to form hydronium ions, H3O+ When bases dissolve in water, hydroxide ions are formed, OH-
hydroxide ions are formed by bases and hydronium ions are formed by acids.
When a strong base is dissolved in water, it forms hydroxide ions (OH-) in solution. These hydroxide ions are responsible for the basic properties of the solution, such as the ability to neutralize acids and turn litmus paper blue.
A base releases hydroxide ions (OH-) when it is dissolved in water. These hydroxide ions can then react with acids to neutralize them and form water.
When a base (or alkali, if you are english, like myself) is dissolved in water, hydroxide ions (OH-) are formed, this is what gives a base (or alkali) its reactive (and possibly corrosive) properties.
hydroxide ions
Hydronium(H3O+) ions, which are formed when Hydrogen(H+) ions combine with water molecules.
When a strong base is dissolved in water, a high concentration of hydroxide ions (OH-) will be present in the solution. This is because strong bases dissociate completely in water to form hydroxide ions.
When acids are dissolved in water, they form hydrogen ions (H+), while bases form hydroxide ions (OH-). Acids release H+ ions, making the solution acidic, while bases release OH- ions, making the solution basic. The concentration of H+ and OH- ions determines the pH of the solution.