carbon dioxide. (experiment by: Jason Priestly) He put a mouse in a jar, the mouse couldn't breathe. Then he put a plant in the same jar as the mouse, and the mouse could breathe!
Plants take in carbon dioxide during the day and release oxygen through photosynthesis. At night, plants do not photosynthesize and instead undergo respiration, where they take in oxygen and release carbon dioxide.
The unstable 6-carbon molecule could undergo various reactions such as rearrangement, decomposition, or polymerization to form more stable compounds. This process can involve breaking and forming chemical bonds to reach a lower energy state.
If plants were able to absorb more carbon dioxide, they would potentially grow faster and larger in size. This increased photosynthesis could lead to higher oxygen production and potentially help mitigate climate change by reducing the amount of carbon dioxide in the atmosphere. However, there could also be unintended consequences on ecosystem dynamics and nutrient availability.
The waste products of cellular respiration are carbon dioxide and water. These products can be used by plants in the process of photosynthesis to produce glucose and oxygen.
No, breaking up a carbon dioxide molecule would result in the formation of separate carbon and oxygen atoms or molecules, depending on the method used. Breaking the bonds of the carbon dioxide molecule would disrupt its structure and composition, resulting in different chemical species than the original carbon dioxide molecule.
The carbon atom in a carbon dioxide molecule is absorbed by the carrot root through photosynthesis, where it is converted into glucose. The glucose molecules can be linked together through dehydration synthesis to form starch, which serves as a storage molecule in the carrot root.
No. Carbon dioxide contains oxygen as well as carbon.
Attractions between water molecules, such as hydrogen bonding, are stronger than the dispersion forces between carbon dioxide molecules. This results in water requiring more energy to break these intermolecular attractions and reach its boiling point than carbon dioxide.
How could it? There is no carbon in hydrogen. It order to make carbon dioxide, you must have carbon and oxygen.
No, cells cannot catabolize carbon dioxide. Carbon dioxide is a waste product of cellular respiration and is typically released by cells into the bloodstream to be expelled from the body through exhalation.
To get rid of a fire you need to break the fire tetrahedron. There are ways of doing this. Carbon dioxide could get rid of all the oxygen in the fire. If there wasn't any oxygen, there would be no fire and the fire would be extinguished.
because you take in oxygen and let out carbon dioxide
because you take in oxygen and let out carbon dioxide
Carbon dioxide is released from water at high temperature.
The molecular formula is CH4. This molecule is know as Carbon tetrahydride or more simply Methane.
When calcium carbonate is reacted with an acid, such as hydrochloric acid, carbon dioxide gas is produced, which can cause fizzing. Additionally, upon heating, calcium carbonate can break down into calcium oxide and carbon dioxide gas, which may also contribute to fizzing.