React with it.
What you may see is 'fizzing', which is the liberation of carbon dioxide from the limestone.
Limestone is an impure form of calcium carbonate(CaCO3)
Like all acid/carbonate reactions, there is the liberation of carbon dioxide and water.
Here is the balanced reaction equation.
Sulphuric Acid + Calcium carbonate(lomestone) gives calcium sulphate + water + Carbon dioxide.
H2SO4(aq) + CaCO3(s) = CaSO4(aq) + H2O(l) + CO2(g) .
NB Calcium carbonate exists in many forms ; viz: limestone, chalk, marble, egg shells, to name but a few.
When sulfuric acid reacts with limestone, calcium sulfate, carbon dioxide, and water are formed. The calcium sulfate is usually in the form of gypsum. The carbon dioxide is released as a gas, causing bubbling or fizzing.
sulfuric acid or sulphuric acid
The sulfuric acid in the Lechuguilla Cave is not produced by a specific organism but is a result of hydrogen sulfide gas reacting with oxygen and water in the cave environment. This reaction produces sulfuric acid that dissolves the surrounding limestone, creating unique cave formations.
When limestone (calcium carbonate) reacts with sulfuric acid, it undergoes a chemical reaction to produce calcium sulfate, carbon dioxide, and water. The reaction between calcium carbonate and sulfuric acid is a neutralization reaction: CaCO3 + H2SO4 -> CaSO4 + CO2 + H2O. This reaction is commonly used in industries such as agriculture to create gypsum, a soil conditioner.
This is because; when you react the two, limestone will form a protective layer around it, which will make it very hard for the acid to react with it. Therefore, it is very hard for this reaction to go to neutralization.
sulfuric acid Like to correct who ever answered this ? Because it not sulfuric acid. The correct answer to this? is: Carbonic Acid....
it forms calcium sulphate
When acid rain falls on a limestone statue, carbon dioxide gas is produced as a result of the reaction between the acid rain (which contains sulfuric acid or nitric acid) and the calcium carbonate in the limestone.
A reaction occur, calcium sulfate is obtained.
When sulfuric acid reacts with limestone, calcium sulfate, carbon dioxide, and water are formed. The calcium sulfate is usually in the form of gypsum. The carbon dioxide is released as a gas, causing bubbling or fizzing.
when the sulfurous, sulfuric, or nitric acids in polluted air react with the calcite in marble and limestone, the calcite dissolves.
sulfuric acid or sulphuric acid
The substances that dissolve limestone are primarily acidic solutions, with carbonic acid being the most significant. This acid forms when carbon dioxide mixes with water, leading to the chemical weathering of limestone through a process called carbonation. Other acids, such as sulfuric acid and hydrochloric acid, can also dissolve limestone.
The sulfuric acid in the Lechuguilla Cave is not produced by a specific organism but is a result of hydrogen sulfide gas reacting with oxygen and water in the cave environment. This reaction produces sulfuric acid that dissolves the surrounding limestone, creating unique cave formations.
When limestone (calcium carbonate) reacts with sulfuric acid, it undergoes a chemical reaction to produce calcium sulfate, carbon dioxide, and water. The reaction between calcium carbonate and sulfuric acid is a neutralization reaction: CaCO3 + H2SO4 -> CaSO4 + CO2 + H2O. This reaction is commonly used in industries such as agriculture to create gypsum, a soil conditioner.
Sulfuric and nitric acid, mainly from industrial, vehicle, and coal fired electrical generating plants, and which is formed in the atmosphere and falls to earth in rain (extremely acidic rain). The acids reacts chemically with the calcium carbonate composing the limestone, dissolving it.
Sulfuric acid and gasses erodes the limestone and produces gypsum crystals over thousands of years.