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Carbonic Acid - Structure, Importance, Properties & Uses, FAQs

Carbonic Acid - Structure, Importance, Properties & Uses, FAQs

Edited By Team Careers360 | Updated on Jul 02, 2025 04:27 PM IST

Carbonic acid has a chemical formula H2CO3. There is a small amount of this compound in the solution of carbon dioxide in water. Since the compound contains one carbon-oxygen double bond, its chemical carbonic acid formula is (H2CO3). The carbon dioxide chemical formula is CO2. As the only acid exhaled in its gaseous state by the lungs, carbonic acid is often described as a respiratory acid. Carbonate and bicarbonate salts are formed by it; it is a weak acid.

This Story also Contains
  1. Carbonic acid structure
  2. H2CO3 properties
  3. 1. Physical-chemical properties
  4. 2. Chemical Properties
  5. Carbonic Acid Uses
  6. Blood Carbonic Acid: Its Importance
  7. Importance of Carbonic Acid in Oceans
Carbonic Acid - Structure, Importance, Properties & Uses, FAQs
Carbonic Acid - Structure, Importance, Properties & Uses, FAQs

Carbonic acid structure

Below is an illustration of carbonic acid's structure.

Carbonic Acid

As demonstrated by the illustration above, carbonic acid has a structure that includes a carbon-oxygen double bond and two carbon-oxygen single bonds. One Hydrogen atom is attached to each oxygen atom participating in a single bond with the carbon.

Carin water, and carbon dioxide participate in the following chemical equilibrium :

CO2 + H2O ⇌ H2CO3

Carbon dioxide in water is converted into carbonic acid in the equilibrium described above, but it is a very small fraction. Carbon dioxide (chemical carbonic acid formula CO2) is an acidic colorless gas with a density about 53% higher than that of dry air.

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Background wave

H2CO3 properties

Under this subsection, you will find a list of some of the significant physical and chemical properties of carbonic acid.

1. Physical-chemical properties

  • Carbonic acid has a molar mass of 62.024 grams per mole.
  • 1.668 grams per cubic centimeter is its density in its standard state.
  • In chemical terms, H2CO3 has a p Ka of 6.35.
  • As a conjugate base, bicarbonate corresponds to carbonic acid.
  • In most cases, this compound is dissolved in water. There have been reports that NASA scientists have prepared solid H2CO3 samples.

2. Chemical Properties

  • A weak acid, H2CO3 is inherently unstable in nature.
  • When water is present, it dissociates partially to give H+ and HCO3 (bicarbonate) ions.
  • A diprotic acid such as carbonic acid can form two types of salts, both of which are bicarbonates.
  • Bicarbonate salts are formed by adding a small quantity of a base to H2CO3, whereas carbonate salts are formed by adding an excess of a base.
  • Interestingly, industrial fermentation processes or the burning of fossil fuels can result in the production of carbonic acid by-products.
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Carbonic Acid Uses

With a wide range of uses, H2CO3 is a very useful compound. Carbonic acid is also used in the following ways.

  • It is carbonic acid that is used to prepare carbonated water, sparkling wine, and other aerated drinks.
  • Ammonium persulfate is precipitated from H2CO3 powder.
  • By transporting carbon dioxide from the body, it helps to eliminate it.
  • Ringworm and other dermatitis are treated by protonating certain nitrogenous bases in blood serum and applying a solution of carbonic acid to the area.
  • Cleansing contact lenses with these solutions is extremely effective.
  • When necessary (such as during drug overdoses), it can be consumed orally to induce vomiting.

Blood Carbonic Acid: Its Importance

By facilitating the process of breathing gas exchange, the bicarbonate ion facilitates the transport of carbon dioxide out of the human body.

It is quite slow for carbon dioxide to undergo hydration reactions, especially without the assistance of a catalyst. the red blood cells contain the enzyme family known as carbonic anhydrases, which contributes to the higher reaction rate.

Catalyzing the dissociation of carbon dioxide and water into carbonic acid is the role of carbonic anhydrase Enzymes. Blood plasma is dissolved in bicarbonate anions created by this process. Upon exhalation, CO2 is formed from the catalyzed reaction in the lungs.

Importance of Carbonic Acid in Oceans

oceans are believed to have shifted the pH of the ocean water by approximately 0.1 due to the absorption of excess carbon dioxide from the atmosphere (primarily caused by human activities). Ocean water reacts with carbon dioxide to form hydrogen carbonate. Ocean acidification is a common term used to describe this process.

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Frequently Asked Questions (FAQs)

1. Carbonic acid is used for what purposes?

Besides soft drinks, artificially carbonated sparkling wines, and other bubbly beverages, carbonic acid is also used to make artificially carbonated sparkling wine. Bicarbonates (or hydrogen carbonates) and carbonates are the salts of carbonic acid.

2. An observation on carbonic acid's acidity

Carbonic acid is a hydroxide that contains substituted hydroxyl groups. Additionally, it is a polyprotic acid. Since this compound has two protons, it is diprotic and therefore belongs to a group of chemicals called diprotic compounds. The dynamics of dissociation can be described using two constants, where the first is for dissociation into the bicarbonate ion.

3. Carbonic acid plays a role in the blood?

Carbon dioxide is expelled from the body by bicarbonate, a chemical intermediate. Generally, CO2 does not hydrate fast without a catalyst, but red blood cells release a substance known as carbonic anhydrase, which speeds up the metabolism of CO2, forming dissolved bicarbonate (HCO3 ) in the blood plasma.

4. What is the strength of carbonic acid?

A strong acid is a carbonic acid, not carbonic acid itself. Weak acids such as H2CO3 are dissociated into proton-containing cations (H+ cations) and bicarbonate-containing anion-forming cations (HCO3 cations). The compound does not completely dissociate in water. As a matter of fact, the bicarbonate ion of carbonic acid, which is the conjugate base of carbonic acid, is a relatively good base. Due to these reasons, carbonic acid is classified as a weak acid rather than as a strong acid.

5. How is carbonic acid formed?

Carbonic acid is formed when carbon dioxide gas dissolves in water. The reaction can be represented as:
[CO2+H2OH2CO3]
This equilibrium can shift based on factors like pressure and temperature.


6. What is the difference between carbonic acid and carbonic anhydride?
Carbonic acid (H2CO3) is the aqueous form, while carbonic anhydride is another name for carbon dioxide (CO2). Carbonic anhydride becomes carbonic acid when dissolved in water, but this process is reversible.
7. How does pressure affect the formation of carbonic acid in carbonated beverages?
Increased pressure forces more CO2 to dissolve in the liquid, leading to more carbonic acid formation. This is why carbonated drinks are bottled under pressure and fizz when the pressure is released upon opening.
8. How does carbonic acid affect the pH of rainwater?
Natural rainwater is slightly acidic (pH around 5.6) due to dissolved CO2 forming carbonic acid. This mild acidity is normal and different from acid rain caused by pollutants, which can have a much lower pH.
9. What is the importance of carbonic acid in the beverage industry?
In the beverage industry, carbonic acid is essential for creating carbonated drinks. It provides the characteristic fizz, contributes to flavor, and acts as a natural preservative by lowering pH, which inhibits bacterial growth.
10. What is the relationship between carbonic acid and the bicarbonate buffer system?
Carbonic acid is a key component of the bicarbonate buffer system. It exists in equilibrium with bicarbonate ions (HCO3-) and CO2. This system helps maintain a stable pH in blood and other bodily fluids by neutralizing small amounts of added acid or base.
11. Why is carbonic acid considered unstable?
Carbonic acid is unstable because it readily decomposes back into carbon dioxide and water. This instability is due to its weak chemical bonds and the favorable entropy of CO2 gas formation.
12. What is the pKa of carbonic acid and what does it indicate?
The pKa of carbonic acid is about 6.35. This indicates that it's a weak acid, meaning it doesn't fully dissociate in water. At physiological pH (around 7.4), most carbonic acid exists as bicarbonate ions.
13. How does carbonic acid differ from other carboxylic acids?
Unlike most carboxylic acids, carbonic acid has two -OH groups attached to a central carbon atom instead of one. It's also much less stable and more readily dissociates in water compared to other carboxylic acids.
14. What is the difference between carbonic acid and carbonated water?
Carbonated water contains dissolved CO2, which forms a small amount of carbonic acid. However, most of the CO2 remains as dissolved gas. Carbonic acid itself is the actual molecule H2CO3, which is present in very small quantities in carbonated water.
15. How does carbonic acid affect the solubility of calcium carbonate in water?
Carbonic acid increases the solubility of calcium carbonate in water. It reacts with CaCO3 to form calcium bicarbonate, which is more soluble. This process is crucial in the formation of hard water and in geological processes like cave formation.
16. What is carbonic acid and how is it formed?
Carbonic acid (H2CO3) is a weak acid formed when carbon dioxide dissolves in water. The reaction is: CO2 + H2O ⇌ H2CO3. This process is reversible and plays a crucial role in maintaining pH balance in blood and oceans.
17. What is the role of carbonic acid in the body's pH regulation?
Carbonic acid is a key component of the bicarbonate buffer system in blood. It helps maintain blood pH within a narrow range by converting between CO2, H2CO3, and bicarbonate ions (HCO3-), allowing the body to regulate acidity levels.
18. What is the role of carbonic acid in the respiratory system?
In the respiratory system, carbonic acid is part of the mechanism for transporting CO2 from tissues to the lungs. CO2 dissolves in blood, forming carbonic acid, which then dissociates into bicarbonate ions. This process is reversed in the lungs to exhale CO2.
19. How does the enzyme carbonic anhydrase relate to carbonic acid?
Carbonic anhydrase is an enzyme that catalyzes the rapid conversion of CO2 and water to carbonic acid, and vice versa. This enzyme is crucial in accelerating the otherwise slow natural reaction, playing vital roles in respiration and pH regulation.
20. How does carbonic acid contribute to the Greenhouse Effect?
While carbonic acid itself doesn't contribute directly to the Greenhouse Effect, its formation and decomposition play a crucial role in the carbon cycle, which influences atmospheric CO2 levels. The ocean's ability to absorb CO2 as carbonic acid affects global warming.
21. How does carbonic acid affect the taste of carbonated beverages?
Carbonic acid contributes to the slightly sour, tangy taste of carbonated drinks. It also creates the characteristic "bite" or tingling sensation on the tongue associated with these beverages.
22. What role does carbonic acid play in the formation of stalactites and stalagmites?
As carbonic acid-rich water drips through limestone caves, it dissolves calcium carbonate. When the water evaporates, it leaves behind calcium carbonate deposits, forming stalactites (hanging from the ceiling) and stalagmites (growing from the floor).
23. How does carbonic acid contribute to the "fizz" in carbonated drinks?
When a carbonated drink is opened, the pressure decrease causes dissolved CO2 (existing partly as carbonic acid) to escape as gas bubbles. This rapid conversion of carbonic acid to CO2 creates the characteristic fizzing effect.
24. How does carbonic acid participate in the weathering of rocks?
Carbonic acid in rainwater reacts with minerals in rocks, particularly those containing calcium, magnesium, and potassium. This chemical weathering process slowly breaks down rocks, contributing to soil formation and the release of ions into water systems.
25. What is the connection between carbonic acid and photosynthesis?
Plants use CO2 in photosynthesis. In aquatic environments, some of this CO2 exists as carbonic acid. Aquatic plants can use bicarbonate ions (from carbonic acid dissociation) as a carbon source when CO2 is limited.
26. What is the structure of carbonic acid and how does it relate to its properties?
Carbonic acid has the structure O=C(OH)2. The central carbon is double-bonded to one oxygen and single-bonded to two -OH groups. This structure makes it a diprotic acid, capable of donating two protons, and contributes to its instability and ready decomposition.
27. How does carbonic acid affect the hardness of water?
Carbonic acid contributes to water hardness by dissolving calcium and magnesium carbonates from rocks and soil. These dissolved minerals increase water hardness, which can lead to scale formation in pipes and affect soap effectiveness.
28. How does carbonic acid interact with metal surfaces?
Carbonic acid can be corrosive to some metals, particularly in the presence of oxygen. This is why carbonated beverages are often stored in lined cans or plastic bottles to prevent metal contamination and maintain product quality.
29. How does carbonic acid contribute to the taste of mineral water?
Natural mineral waters often contain dissolved CO2, forming carbonic acid. This contributes to their refreshing taste and slight acidity. The interaction of carbonic acid with minerals also influences the overall flavor profile of different mineral waters.
30. How does carbonic acid affect the solubility of gases in water?
The presence of carbonic acid can affect the solubility of other gases in water. For instance, it can influence the solubility of oxygen, which is important for aquatic ecosystems. This relationship is complex and depends on factors like temperature and pressure.
31. How does carbonic acid affect the preservation of fossils?
Carbonic acid can both contribute to fossil preservation and destruction. In some cases, it can dissolve away organic material, leaving detailed impressions. In others, it can dissolve calcium carbonate fossils. The outcome depends on environmental conditions and fossil composition.
32. How does carbonic acid contribute to ocean acidification?
As atmospheric CO2 levels increase, more CO2 dissolves in oceans, forming carbonic acid. This lowers the ocean's pH, leading to acidification. This process affects marine ecosystems, particularly organisms with calcium carbonate shells or skeletons.
33. What is the significance of carbonic acid in the carbon cycle?
Carbonic acid plays a crucial role in the carbon cycle by facilitating the transfer of CO2 between the atmosphere, hydrosphere, and lithosphere. It aids in weathering rocks and dissolving atmospheric CO2 in water bodies.
34. How does carbonic acid contribute to acid rain?
While sulfuric and nitric acids are the primary contributors to acid rain, carbonic acid also plays a role. CO2 in the atmosphere dissolves in rainwater, forming weak carbonic acid, which slightly lowers the pH of rainwater.
35. How does temperature affect the solubility of CO2 and formation of carbonic acid?
As temperature increases, the solubility of CO2 in water decreases. This leads to less carbonic acid formation at higher temperatures. This principle explains why warm sodas go flat faster than cold ones.
36. What is the relationship between carbonic acid and limestone caves?
Carbonic acid is responsible for the formation of limestone caves. Rainwater absorbs CO2 from the air and soil, forming carbonic acid. This acid then dissolves limestone (CaCO3) over time, creating cave systems.
37. How does the presence of carbonic acid affect marine organisms?
Increased levels of carbonic acid in oceans (due to higher atmospheric CO2) can make it difficult for some marine organisms to form their calcium carbonate shells or skeletons. This particularly affects corals, mollusks, and some plankton species.
38. What is the role of carbonic acid in soil chemistry?
In soil, carbonic acid forms when CO2 from root respiration and microbial activity dissolves in soil water. It plays a role in mineral weathering, nutrient availability, and pH regulation in the soil environment.
39. What is the significance of carbonic acid in the brewing process?
In brewing, carbonic acid forms naturally during fermentation as yeast produces CO2. It contributes to the carbonation and flavor profile of beers and other fermented beverages, and helps preserve the product by lowering pH.
40. What is the role of carbonic acid in the formation of kidney stones?
Carbonic acid plays a role in urinary pH regulation. An imbalance in the carbonic acid-bicarbonate system can affect urine pH, potentially contributing to the formation of certain types of kidney stones, particularly those composed of calcium phosphate.
41. What is the importance of carbonic acid in the carbon sequestration process?
Carbonic acid is crucial in carbon sequestration, particularly in oceanic and geological contexts. It facilitates the conversion of atmospheric CO2 into dissolved inorganic carbon and eventually into carbonate minerals, helping to remove CO2 from the atmosphere long-term.
42. What is the relationship between carbonic acid and the Bohr effect in hemoglobin?
The Bohr effect describes how an increase in blood CO2 (and thus carbonic acid) concentration leads to a decrease in hemoglobin's affinity for oxygen. This is crucial for efficient oxygen delivery to tissues, especially during exercise.
43. How does carbonic acid contribute to the formation of travertine?
Travertine, a form of limestone, is deposited by mineral springs, often hot springs. Carbonic acid in these waters dissolves calcium carbonate, which then precipitates out as the water degasses, forming travertine deposits.
44. What is the role of carbonic acid in the global carbon budget?
Carbonic acid plays a significant role in the global carbon budget by facilitating the exchange of CO2 between the atmosphere and oceans. It's part of the ocean's "carbon pump" that helps regulate atmospheric CO2 levels over geological timescales.
45. What is the relationship between carbonic acid and the carbonate compensation depth in oceans?
The carbonate compensation depth is the ocean depth below which calcium carbonate dissolves faster than it can accumulate. This depth is influenced by pressure, temperature, and the concentration of carbonic acid, which increases with depth due to increased CO2 solubility under pressure.
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