When acid reacts with marble (which is primarily made of calcium carbonate), it will cause a chemical reaction that produces carbon dioxide gas, water, and a soluble calcium compound. This reaction will result in the erosion or dissolution of the marble surface, leading to the formation of pits, etching, and visible damage to the material.
Marble
No, testing stones with acid to see if they are marble is a physical change. The acid reacts with the marble to produce a fizzing or bubbling reaction, indicating the presence of calcium carbonate in the marble. This reaction does not change the fundamental chemical composition of the marble.
When marble (calcium carbonate) is placed in hydrochloric acid (HCl), a chemical reaction occurs where the acid reacts with the marble to form calcium chloride, carbon dioxide gas, and water. This reaction will visibly produce bubbles of carbon dioxide gas as the marble dissolves, ultimately resulting in the marble breaking down and disappearing in the acidic solution.
Acid rain can corrode and damage the surface of marble over time, causing it to lose its polish and smoothness. The acid in the rain reacts with the calcium carbonate in the marble, leading to erosion and discoloration. This can result in the deterioration and loss of detail in marble statues and structures.
Carbon dioxide gas bubbles out when drops of hydrochloric acid are dropped on marble. This reaction occurs because the hydrochloric acid reacts with the calcium carbonate in the marble, producing carbon dioxide gas as a byproduct.
Yes, it does! marble is basic and reacts with the acid rain.
Marble
No, testing stones with acid to see if they are marble is a physical change. The acid reacts with the marble to produce a fizzing or bubbling reaction, indicating the presence of calcium carbonate in the marble. This reaction does not change the fundamental chemical composition of the marble.
Marble dissolving in acid rain is a chemical change. The acid reacts with the calcium carbonate in the marble to form new substances, such as carbon dioxide and water. This chemical reaction alters the composition of the marble, leading to its dissolution.
Salt
When marble (calcium carbonate) is placed in hydrochloric acid (HCl), a chemical reaction occurs where the acid reacts with the marble to form calcium chloride, carbon dioxide gas, and water. This reaction will visibly produce bubbles of carbon dioxide gas as the marble dissolves, ultimately resulting in the marble breaking down and disappearing in the acidic solution.
Becuase its wearing down the calcite and marble as it runs across it
Acid rain can corrode and damage the surface of marble over time, causing it to lose its polish and smoothness. The acid in the rain reacts with the calcium carbonate in the marble, leading to erosion and discoloration. This can result in the deterioration and loss of detail in marble statues and structures.
Carbon dioxide gas bubbles out when drops of hydrochloric acid are dropped on marble. This reaction occurs because the hydrochloric acid reacts with the calcium carbonate in the marble, producing carbon dioxide gas as a byproduct.
The salt formed when hydrochloric acid reacts with powdered marble is calcium chloride. The reaction between hydrochloric acid (HCl) and calcium carbonate (found in marble) produces calcium chloride, carbon dioxide gas, and water.
Marble - of any type - is a rock made largely of calcium carbonate, on an elemental level. Calcium carbonate reacts with acid. It's that simple.
Marble is largely composed of calcium carbonate, which reacts with acids like hydrochloric acid to produce carbon dioxide gas, water, and calcium chloride. This reaction can cause erosion and damage to the marble surface over time.