Many hydroxides absorb carbon dioxide.
Both carbon (or a carbon compound) and oxygen are used in the formation of carbon dioxide, which contains both elements.
Its a compound and a pure chemical substance
An example of carbon moving from an inorganic compound to an organic compound in the carbon cycle is through the process of photosynthesis. During photosynthesis, plants take in carbon dioxide (an inorganic compound) from the atmosphere and convert it into glucose (an organic compound) through a series of chemical reactions using sunlight as an energy source.
Organolithium compounds can be used in a reaction with carbon dioxide to form carboxylic acids. This process involves adding the organolithium compound to carbon dioxide, which then reacts to form a carboxylic acid.
It will not absorb it but will congeal with it to create a sticky mess!
Carbon dioxide.
Plants remove Carbon Dioxide from the environment.
Carbon dioxide is a compound of Carbon and Oxygen - CO2
This compound is carbon dioxide - CO2.
Plants remove carbon dioxide during photosynthesis!
Carbon dioxide (and water).
Both carbon (or a carbon compound) and oxygen are used in the formation of carbon dioxide, which contains both elements.
Its a compound and a pure chemical substance
An example of carbon moving from an inorganic compound to an organic compound in the carbon cycle is through the process of photosynthesis. During photosynthesis, plants take in carbon dioxide (an inorganic compound) from the atmosphere and convert it into glucose (an organic compound) through a series of chemical reactions using sunlight as an energy source.
Plants, algae, and cyanobacteria remove carbon dioxide gas from the air during photosynthesis. This process helps to convert carbon dioxide into glucose, which is used as energy and stored as carbohydrates in these organisms.
Carbon iron oxide - oxygen = carbon dioxide
Organolithium compounds can be used in a reaction with carbon dioxide to form carboxylic acids. This process involves adding the organolithium compound to carbon dioxide, which then reacts to form a carboxylic acid.