It 'fizzes' and you see bubbles of Carbon dioxide forming.
marble
yes
The metamorphic rock marble would react with hydrochloric acid.
If you combine it with an acid, it will react and release a small amount of water but the marble will be destroyed completely.
Yes, marble can wear away from exposure to acid rain. The acidic nature of the rain can react with the calcium carbonate in the marble, leading to erosion and deterioration of the surface of the marble over time. It is important to protect marble surfaces from acid rain to prevent damage.
When an acid falls on marble, it can react with the calcium carbonate in the marble, causing it to dissolve and form bubbles of carbon dioxide gas. This reaction erodes the surface of the marble, leading to etching and loss of shine. Over time, the acid can damage and deteriorate the marble if not cleaned and neutralized promptly.
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.
Oh, dude, using oxalic acid on marble is a big no-no because it can react with the calcium carbonate in the marble and cause etching. Like, who wants their beautiful marble to look all messed up, right? Stick to gentle cleaners for that fancy marble, trust me.
it takes about 36 years for the acid rain to react with calcium carbonate which include limestone and marble. HOPE this help!
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.
No, not all rocks react with hydrochloric acid. Rocks that contain calcium carbonate, such as limestone and marble, will react with hydrochloric acid by producing carbon dioxide gas. However, rocks that do not contain calcium carbonate will not have a reaction with hydrochloric acid.