It's very simple really, take an acid like HCl and combine it with a carbonate like, say Na2CO3 it should produce the following
2HCl+Na2CO3 -> H2O+2NaCl+CO2
in other words you will get a salt, water, and a gas, if that gas is Carbon dioxide it means you did everything right. Hope that answers your question.
This is considered an acid/base reaction.
The general reaction is Acid + Metal Carbonate -> Salt + Carbon Dioxide + Water Hope this helps!
The chemical reaction goes faster if calcium carbonate is powdered.
Yes, beryllium carbonate will react with hydrochloric acid (HCl) to produce beryllium chloride, carbon dioxide, and water. This reaction is a typical acid-base reaction where the carbonate ion acts as a base and the hydrogen ion from the acid reacts to form water.
When acid rain comes into contact with buildings made of carbonate rocks (such as limestone or marble), a chemical reaction occurs where the calcium carbonate in the rock reacts with the acid rain (which contains sulfuric acid and nitric acid) to form calcium sulfate, carbon dioxide, and water. This process is known as chemical weathering, where the acid rain slowly dissolves and breaks down the carbonate rock, leading to structural damage over time.
Adding sodium carbonate powder to an acid solution will cause fizzing or effervescence due to the reaction of the acid with the carbonate. This can help identify the presence of an acid in the solution.
If you put cold dilute Hydrochloric acid on a carbonate rock the acid dissolves the rock and you get bubbles of carbon dioxide in the acid. This reaction will only happen with carbonate rocks.
The word equation for the reaction between acid and metal carbonate is acid + metal carbonate → salt + water + carbon dioxide.
Minerals containing carbonate ions, such as calcite (calcium carbonate) and dolomite (magnesium carbonate), will fizz in contact with hydrochloric acid due to the release of carbon dioxide gas. This reaction is a common test to identify carbonate minerals.
This is considered an acid/base reaction.
The word equation for the reaction between magnesium carbonate and sulfuric acid is Magnesium Carbonate + Hyrdocholric Acid > Magnesum Chloride + Carbon Dioxide + Water.
When a carbonate, such as calcium carbonate, reacts with an acid, such as hydrochloric acid, it undergoes a chemical reaction and produces carbon dioxide gas, water, and a salt. The reaction can be represented by the general equation: Carbonate + Acid -> Carbon Dioxide + Water + Salt.
Carbonate minerals, such as calcite and dolomite, will typically react with dilute hydrochloric acid by releasing carbon dioxide gas. This reaction can be used as a simple test to identify these minerals.
When an acid reacts with a carbonate, it produces carbon dioxide gas, water, and a salt. The general chemical equation for this reaction is: acid + carbonate → carbon dioxide + water + salt.
lithium carbonate + hydrochloric acid ---> lithium chloride + carbon dioxide + water
The reaction between sulfamic acid and calcium carbonate produces calcium sulfamate, water, and carbon dioxide. This is a double displacement reaction where the carbonate ion in calcium carbonate exchanges places with the sulfate ion in sulfamic acid.
One chemical property that can be used to identify calcium carbonate is its reaction with hydrochloric acid to produce carbon dioxide gas, which causes effervescence. Additionally, calcium carbonate will turn a solution of calcium hydroxide milky when added, indicating the presence of carbonate ions.