The carbon dioxide will change into a milky solution . If we further bubble through lime water the solution we be colourless.
When carbon dioxide gas is bubbled through a solution of lithium hydroxide, lithium carbonate and water are produced. This reaction is utilized in carbon dioxide scrubbers to remove carbon dioxide from the air in closed environments such as spacecraft or submarines.
Lime water (calcium hydroxide) is commonly used to identify carbon dioxide gas. When bubbled through lime water, carbon dioxide forms a white precipitate of calcium carbonate. This reaction is often used as a test for the presence of carbon dioxide.
When exhaled air is bubbled into lime water, the carbon dioxide in the exhaled air reacts with the calcium hydroxide in the lime water to form calcium carbonate, which causes the lime water to turn milky or cloudy. This is because carbon dioxide reacts with calcium hydroxide to produce calcium carbonate, water, and heat.
A positive test for carbon dioxide is the limewater test. When carbon dioxide gas is bubbled through limewater, it turns milky or cloudy due to the formation of a white precipitate of calcium carbonate.
When carbon dioxide is bubbled into a hydrogen carbonate indicator, the indicator solution will turn yellow. This is due to the formation of carbonic acid, which is a weak acid. The carbon dioxide reacts with water in the indicator solution to form carbonic acid, causing the color change.
If carbon dioxide and oxygen are bubbled through lime water separately the lime water through which carbon dioxide has been bubbled turns milky while the lime water through which oxygen is bubbled remains unaffected.
Lime water changes from clear to milky/cloudy when carbon dioxide is bubbled in, indicating the formation of calcium carbonate.
The lime water turns milky
When carbon dioxide gas is bubbled through a solution of lithium hydroxide, lithium carbonate and water are produced. This reaction is utilized in carbon dioxide scrubbers to remove carbon dioxide from the air in closed environments such as spacecraft or submarines.
It turns cloudy white.
Lime water (calcium hydroxide) is commonly used to identify carbon dioxide gas. When bubbled through lime water, carbon dioxide forms a white precipitate of calcium carbonate. This reaction is often used as a test for the presence of carbon dioxide.
Adding carbon dioxide to a substance. For example carbonation of water. You have had a soda at least once or even seen it. (If you haven't please do so). It is written there carbonated water. It means that carbon dioxide is mixed with water under pressure. That is why if you open a can of soda a huge effervescence occurs which means bubbling by the way. This bubbled gas is carbon dioxide.
From memory of a school science class many years ago, the lime water will turn milky looking.
When exhaled air is bubbled into lime water, the carbon dioxide in the exhaled air reacts with the calcium hydroxide in the lime water to form calcium carbonate, which causes the lime water to turn milky or cloudy. This is because carbon dioxide reacts with calcium hydroxide to produce calcium carbonate, water, and heat.
If you mean "what is observed when carbon dioxide enters lime water" then lime water, or calcium carbonate (CaCO3) absorbs carbon dioxide (CO2) to form a white precipitate or "milky" solution that is semitransparent.
A positive test for carbon dioxide is the limewater test. When carbon dioxide gas is bubbled through limewater, it turns milky or cloudy due to the formation of a white precipitate of calcium carbonate.
When carbon dioxide is bubbled into a hydrogen carbonate indicator, the indicator solution will turn yellow. This is due to the formation of carbonic acid, which is a weak acid. The carbon dioxide reacts with water in the indicator solution to form carbonic acid, causing the color change.