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Carbon moves through the carbon cycle in all processes, except for the burning of fossil fuels. Fossil fuel burning releases carbon dioxide (CO2) into the atmosphere, which disrupts the natural carbon cycle by increasing the concentration of CO2, a greenhouse gas, in the atmosphere.
carbon monoxide and carbon dioxide Essentially, organic compounds contain carbon and hydrogen.
Is the molecular formula which indicates the main carbon-carbon bonds, or other type of atoms except the hydrogen-carbon bonds Example:
The possibilities are infinite:any of the over 100 elements on the periodic table (including carbon and oxygen)any of the billions and billions of chemical compounds - other than carbon dioxidea baseballsausagesscrambled eggsa planetetc.
Hydrogen
Carbon moves through the carbon cycle in all processes, except for the burning of fossil fuels. Fossil fuel burning releases carbon dioxide (CO2) into the atmosphere, which disrupts the natural carbon cycle by increasing the concentration of CO2, a greenhouse gas, in the atmosphere.
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No. You cannot get one element from another except by nuclear processes, which are not used by living things. Plants get their carbon from carbon dioxide.
carbon monoxide and carbon dioxide Essentially, organic compounds contain carbon and hydrogen.
There are more things, except for carbon dioxide!
Is the molecular formula which indicates the main carbon-carbon bonds, or other type of atoms except the hydrogen-carbon bonds Example:
Yes, carbon exists in all types of food except minerals and water.
No. A diamond is all carbon, except for trace minerals what may give the diamond colour.
Carbon don't react with acids, except concentrated Nitric acid. Concentrated nitric acid reacts with carbon to produce Water, Carbon dioxide, and Nitrogen dioxide.
The pencil lead is not lead but is made from soft graphite carbon and insoluble except as carbon tetra chloride
Except through electrolysis a metal in an oxide can only be replaced by a more reactive metal. If fact that is one of the measure of reactivity. Highly reactive metals such as magnesium are actually stronger reducing agents than carbon, so rather than carbon reducing their oxide, they will reduce oxides of carbon.
Carbon, hydrogen, oxygen, nitrogen, and sulfur. The same as in your own proteins - except for the excess of carbon.