well theres two ways you can do it,
1. you can combust the products, and if carbon dioxide is present using limewater, then the product is organic, and if no co2 produced then inorganic.
2. Heat the compound in air, and it residue is left behind then the compound is inorganic, and no residue = organic
the problem with this was, a few sources say combust the compound, but when i wrote it in a school exam, the teacher marked it wrong and said you have to heat it in the presence of air.
so just to be on the safe side, just write heating in the presence of air. =)
The test that is used for organic and inorganic compounds involves use of reagent chemicals such as acetic acid or ammonia.
Ex.: chemical analysys, X-ray diffraction
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.
Hundreds of thousands of inorganic compounds are used in technology and science.
The difference between organic and inorganic foods is that an organic food has no pesticides or chemicals used on it to keep the bugs off and out of it. An inorganic food is just the opposite, where as it has many pesticides and chemicals to keep the bugs off and out of of it.
It is called organic compounds (made from living organisms, or used to be). It was only in the nineteenth century when organic compounds could be made in the laboratory from inorganic substances (gas, rocks, minerals, etc.)
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.
covalent bond can be seen in organic as well as in inorganic compounds
CHINA
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.
Steel, aluminum, cast iron, copper, stainless steel and glass. Wood, plastic and foods are organic compounds (contain carbon). Salt is inorganic, alum used as an acid to activate soda, is aluminum oxide, an inorganic compound. Otherwise most are organic.
In cosmetics are used many organic compounds (comtaining C, O, H, N, S). Inorganic compounds: talc, titanium dioxide, zinc oxide etc.
Inorganic compounds are usually not composed of carbon and hydrogen atoms. Organic compounds are composed of carbon and hydrogen, although sometimes the hydrogen atoms get replaced by other elements. Sodium chloride, a very important compound in living things, is composes of sodium (Na) and chlorine (Cl), and is inorganic. Iron oxide, Fe2O3 is rust, composed of the metal iron and the element oxygen, and is also inorganic. The carbohydrate glucose, essential to life, has the molecular formula C6H12O6, which contains carbon and hydrogen, as well as oxygen, and is organic. Methane, CH4, is the simplest hydrocarbon and is natural gas used for powering appliances in some homes, and is also an organic compound.
Hundreds of thousands of inorganic compounds are used in technology and science.
inorganic
The difference between organic and inorganic foods is that an organic food has no pesticides or chemicals used on it to keep the bugs off and out of it. An inorganic food is just the opposite, where as it has many pesticides and chemicals to keep the bugs off and out of of it.
Most common nitrites (NO2-) (like NaNO2, used as food preservative) are inorganic compounds. However, some common important organic nitrites include Methyl nitrite and Ethyl nitrite.
Aluminum is an element and would be considered to be inorganic but the terms are not used for elements.
It is called organic compounds (made from living organisms, or used to be). It was only in the nineteenth century when organic compounds could be made in the laboratory from inorganic substances (gas, rocks, minerals, etc.)