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Which compound is used to remove carbon dioxide from air?
Sodium hydroxide (NaOH) is commonly used to remove carbon dioxide from air. When sodium hydroxide reacts with carbon dioxide, it forms sodium carbonate and water, effectively removing the carbon dioxide from the air.
How do you find solubility of carbon dioxide in sodium hydroxide?
To find the solubility of carbon dioxide in sodium hydroxide, you can conduct an experiment where you bubble carbon dioxide gas through a solution of sodium hydroxide and measure the amount of carbon dioxide that dissolves in the solution. You can then calculate the solubility of carbon dioxide in sodium hydroxide by dividing the amount of CO2 that dissolves by the volume of the solution.
What is the reaction of sodium hydroxide with carbon dioxide?
When sodium hydroxide reacts with carbon dioxide, it forms sodium carbonate and water. This reaction is a type of neutralization reaction.
What is solubility value of carbon dioxide in sodium hydroxide?
Carbon dioxide react with sodium hydroxide.
Why sodium hydroxide reacts with carbon dioxide?
Sodium hydroxide reacts with carbon dioxide to form sodium carbonate and water. This reaction is a type of neutralization reaction, where the strong base (sodium hydroxide) neutralizes the acidic carbon dioxide to form a salt (sodium carbonate) and water.
What is the use Sodium hydroxide?
Sodium hydroxide is use to absorb carbon dioxide.
Which chemical can absorb carbon dioxide?
sodium hydroxide or potasium hydroxide
Can sodium hydroxide absorb carbon dioxide?
Yes, sodium hydroxide (NaOH) can absorb carbon dioxide (CO2) through a process called carbonation. When sodium hydroxide reacts with carbon dioxide, it forms sodium carbonate (Na2CO3) and water. This reaction is often used in industrial processes to capture and sequester carbon dioxide emissions.
How do you make an easy carbon dioxide filter?
Sodium hydroxide granules absorb carbon dioxide.
Which compound is used to remove carbon dioxide from air?
Sodium hydroxide (NaOH) is commonly used to remove carbon dioxide from air. When sodium hydroxide reacts with carbon dioxide, it forms sodium carbonate and water, effectively removing the carbon dioxide from the air.
How do you find solubility value of carbon dioxide in sodium hydroxide?
Carbon dioxide react with sodium hydroxide.
How do you find solubility of carbon dioxide in sodium hydroxide?
To find the solubility of carbon dioxide in sodium hydroxide, you can conduct an experiment where you bubble carbon dioxide gas through a solution of sodium hydroxide and measure the amount of carbon dioxide that dissolves in the solution. You can then calculate the solubility of carbon dioxide in sodium hydroxide by dividing the amount of CO2 that dissolves by the volume of the solution.
What is the reaction between sodium hydroxide and moisture in air?
Sodium hydroxide reacts with moisture in the air to form sodium hydroxide solution (a strong base) and heat. This is because sodium hydroxide is hygroscopic, meaning it absorbs water from the surrounding environment. The reaction is exothermic, releasing energy in the form of heat.
What is the reaction of sodium hydroxide with carbon dioxide?
When sodium hydroxide reacts with carbon dioxide, it forms sodium carbonate and water. This reaction is a type of neutralization reaction.
What is solubility value of carbon dioxide in sodium hydroxide?
Carbon dioxide react with sodium hydroxide.
Why sodium hydroxide reacts with carbon dioxide?
Sodium hydroxide reacts with carbon dioxide to form sodium carbonate and water. This reaction is a type of neutralization reaction, where the strong base (sodium hydroxide) neutralizes the acidic carbon dioxide to form a salt (sodium carbonate) and water.
Why is sodium hydroxide contaminated with sodium carbonate?
Sodium hydroxide is typically contaminated with sodium carbonate due to exposure to carbon dioxide in the air. Sodium hydroxide readily absorbs carbon dioxide, which can react with the sodium hydroxide to form sodium carbonate. This contamination can affect the purity and concentration of the sodium hydroxide solution.
