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Hydrochloric Acid would be the stronger acid, as Sodium Hydroxide is an alkali.
Hydrochloric Acid would be the stronger acid, as Sodium Hydroxide is an alkali.
Calcium chloride
Calcium reacts with hydrochloric acid to produce Calcium chloride and hydrogen gas.Ca +2 HCl -----> CaCl2 + H2
To neutralise a strong acid, you would need a strong alkali (or lots of a weak alkali, but that would be impractical). Potassium hydroxide, sodium hydroxide, lithium hydroxide, calcium hydroxide, calcium hydroxide and magnesium hydroxide would all work.
You would get calcium chloride... 2HCl + Ca(OH)2 = CaCl2 + 2H2O
Hydrochloric Acid would be the stronger acid, as Sodium Hydroxide is an alkali.
Hydrochloric Acid would be the stronger acid, as Sodium Hydroxide is an alkali.
Calcium chloride
Calcium reacts with hydrochloric acid to produce Calcium chloride and hydrogen gas.Ca +2 HCl -----> CaCl2 + H2
To neutralise a strong acid, you would need a strong alkali (or lots of a weak alkali, but that would be impractical). Potassium hydroxide, sodium hydroxide, lithium hydroxide, calcium hydroxide, calcium hydroxide and magnesium hydroxide would all work.
As calcium forms the 2+ ion, and hydroxide has a negative charge, the formula would be Ca(OH)2
Ca(s) + 2H+(aq) + [ Cl-(aq) ] --> H2(g) + Ca2+(aq) + [ Cl-(aq) ]So you would say that a Calcium atom has reacted with 2 hydrochloric acid molecules to produce Hydrogen gas (H2) and calcium chloride in a quantitative reaction. (Chloride ion [ Cl-(aq) ] is not changed, it is called a 'tribune' ion)
Well it forms a hard white low souluable solid harder that salt
Calcium is already neutral, so "neutralized" isn't the right word. It would react with hydrochloric acid to form hydrogen gas and calcium chloride.
The metal would most likely form a metal salt.
First, the sea water is collected in large basins and heated to evaporate some of the water. This yields a concentrated solution of water and various salts which are mixed with calcium hydroxide (lime) to yield a magnesium hydroxide precipitate. The precipitate is then reacted with hydrochloric acid to yield magnesium chloride. This is then separated into molten magnesium metal and chlorine gas ions through the electrolysis process. The chlorine is reacted with hydrogen to yield hydrochloric acid to be recycled, while the molten magnesium is then cast into ingots.