How Many Moles of Carbonic Acid are Needed to Form 3.50 Moles of Carbon Dioxide Gas?

Balanced Reaction:

Carbonic acid decomposing to produce water and carbon dioxide gas:

H2CO3 → H2O + CO2

Task:

Calculate how many moles of carbonic acid, H2CO3, will be needed to form 3.50 moles of carbon dioxide gas.

Solution:

According to the balanced reaction, 1 mole of H2CO3 produces 1 mole of CO2.

Therefore, to produce 3.50 moles of CO2, we would need 3.50 moles of H2CO3.

Given the following balanced reaction of carbonic acid decomposing to produce water and carbon dioxide gas, how many moles of carbonic acid, H2CO3, will be needed to form 3.50 moles of carbon dioxide gas? 3.50 moles of carbonic acid, H2CO3, will be needed to form 3.50 moles of carbon dioxide gas. 7.00 mol is not the correct answer in this scenario.
← The molar mass of f a s ferrous ammonium sulfate How to design a shoe for people with painful foot condition →

More Posts: