No. It is exactly the opposite. Carbon forms many varied molecules, especially organic compounds with oxygen and hydrogen.
The noble gases are the elements that form few compounds.
If your only products are H20 & CO2 then the rectants in your equation must only contain those elements. In actual fact wood contains many more elements that just Carbon, Hydrogen and Oxygen. For example wood ash contains Potassium compounds among other substances.
Among gases, several are more intrinsically dense than carbon dioxide, including the gaseous elements chlorine and radon, the compounds sulfur dioxide and water vapor, and gaseous organic chemicals such as butane and propane.
carbon chlorineOrgano fluorine compounds are organic chemical compounds that contain carbon and fluorine bonded in the polarized and remarkably strong carbon–fluorine bond. Organofluorine compounds are diverse, they can be fluorocarbons, perfluorinated, or aromatic fluoride compounds(such as 2-Bromo-4-fluorotoluene as described in the related link), among other possibilities. These compounds have a wide range of functions and can serve as refrigerants, pharmaceuticals, agrichemicals, surfactants, poisons, or pollutants.
Nitrogen and oxygen are among the most common elements in the universe, formed by nuclear fusion in the cores of stars. These elements, or at least compounds of them, are present in the nebula that collapses to form a solar system. After a planet forms, nitrogen and carbon dioxide are released by volcanic activity. Earth is the only known planet with notable amounts of free oxygen in the atmosphere. This is the result of photosynthesis (plants and algae processing water and carbon dioxide into sugar and oxygen).
AnswerOne reason for the very large number of organic molecules (compared to the total number of inorganic compounds) is due to constitutional isomerism. Constitutional isomerism are different compounds that have the same molecular formula but differ in their connectivity, that is, in the sequence in which their atoms are bonded together.
All the bio molecules are organic compounds. Carbon is the element common among all these compounds. Carbon is a tetravalent element.
No, oxygen and carbon are, among many others, nonmetallic elements.
The primary energy source for most living systems is nutrients. Nutrients are elements and compounds that organisms consume and require for survival. Organisms need several dozen naturally occurring chemical elements to survive; among these are nitrogen, carbon, and phosphorus.
they are all carbon based
The primary energy source for most living systems is nutrients. Nutrients are elements and compounds that organisms consume and require for survival. Organisms need several dozen naturally occurring chemical elements to survive; among these are nitrogen, carbon, and phosphorus.
Carbon group is 14th group of periodic table and among representative elements it is 4 A group.
Chlorine is a group 17 element and has the highest electronegativity among the elements given.
If your only products are H20 & CO2 then the rectants in your equation must only contain those elements. In actual fact wood contains many more elements that just Carbon, Hydrogen and Oxygen. For example wood ash contains Potassium compounds among other substances.
Simply because they exist in their natural state. Most elements are naturally found in compounds (ores, minerals) and must be processed to access the actual elements.
Among gases, several are more intrinsically dense than carbon dioxide, including the gaseous elements chlorine and radon, the compounds sulfur dioxide and water vapor, and gaseous organic chemicals such as butane and propane.
Yes. Leather, made from cow skin contain proteins such as keratin. These proteins contain the elements carbon and oxygen among others.
carbon chlorineOrgano fluorine compounds are organic chemical compounds that contain carbon and fluorine bonded in the polarized and remarkably strong carbon–fluorine bond. Organofluorine compounds are diverse, they can be fluorocarbons, perfluorinated, or aromatic fluoride compounds(such as 2-Bromo-4-fluorotoluene as described in the related link), among other possibilities. These compounds have a wide range of functions and can serve as refrigerants, pharmaceuticals, agrichemicals, surfactants, poisons, or pollutants.