The organic compounds are:
1. Proteins= Proteins are fundamental components of all living cells and include many substances, such as enzymes, hormones, and antibodies, that are necessary for the proper functioning of an organism.
2.Carbohydrates= These compounds are produced by photosynthetic plants and contain only carbon, hydrogen, and oxygen.
3.Lipids(fats)= Any of a group of organic compounds, including the fats, oils, waxes, sterols, and triglycerides, that are insoluble in water but soluble in nonpolar organic solvents, are oily to the touch, and together with carbohydrates and proteins constitute the principal structural material of living cells.
4.Nucleic Acid= Any of a group of complex compounds found in all living cells and viruses, composed of purines, pyrimidines, carbohydrates, and phosphoric acid. Nucleic acids in the form of DNA and RNA control cellular function and heredity.
An inorganic compound is a compound that doesnÃ?t contain carbon. Many of these compounds are important for us to live, including water and oxygen.
It is chemistry concerned with the properties and behavior of inorganic compounds. This field covers all chemical compounds except the myriad organic compounds (compounds containing C-H bonds), which are the subjects of organic chemistry.
An organism that uses energy to produce its own food supply from inorganic compounds is called an autotroph (within a food chain, it is a producer).
An example of an inorganic compound would be sodium chloride, also called table salt; this is commonly used in cooking and food preparation. An example of an organic compound would be isopropyl alcohol, also called rubbing alcohol; this is commonly used as a first aid antiseptic.
Inorganic chemistry is the type of chemistry that focuses mainly on substances that DON'T contain H-C bonds, like CO2, H2O, HNO3 etc. Inorganic compounds are usually formed without the help of living organisms.
An inorganic compound is a compound that doesnÃ?t contain carbon. Many of these compounds are important for us to live, including water and oxygen.
Plants do this.
It is chemistry concerned with the properties and behavior of inorganic compounds. This field covers all chemical compounds except the myriad organic compounds (compounds containing C-H bonds), which are the subjects of organic chemistry.
An organism that uses energy to produce its own food supply from inorganic compounds is called an autotroph (within a food chain, it is a producer).
well obviously an organism that produces itsown food is called aPRODUCER!!..OK NOT ANYTHING ELSE CAUSE THEN THAT WOULD BE A LIE!
An example of an inorganic compound would be sodium chloride, also called table salt; this is commonly used in cooking and food preparation. An example of an organic compound would be isopropyl alcohol, also called rubbing alcohol; this is commonly used as a first aid antiseptic.
Inorganic compounds are typically composed of elements other than carbon, such as metals, nonmetals, and metalloids. These compounds can form simple structures like salts, oxides, and acids, with varying properties and uses in different fields like chemistry, geology, and materials science. Examples include sodium chloride (table salt), calcium carbonate (chalk), and sulfuric acid.
Inorganic chemistry is the type of chemistry that focuses mainly on substances that DON'T contain H-C bonds, like CO2, H2O, HNO3 etc. Inorganic compounds are usually formed without the help of living organisms.
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They oxidize inorganic compounds as a source of energy.ORChemoautotrophic bacteria uses energy produced by oxidizing or reducing chemical substances. The energy released from oxidation or reduction is used to synthesize organic compounds. Hence they don't need sunlight.This chemosynthesis does not and this is how it differs from photosynthesis.
The microbe is a chemolithoautotroph, which obtains energy through oxidizing inorganic compounds (H2) and CO2 as its carbon source.
The source of energy for chemosynthesis is typically inorganic compounds such as hydrogen sulfide, methane, or ammonia. Chemosynthetic organisms use this energy to convert carbon dioxide into organic molecules, without relying on sunlight like photosynthesis.