Some examples are:
- Alfa Aesar
- Merck Millipore
- SigmaAldrich
Some characteristics of organic compounds are that many are gases or solids that have low melting points and they do not conduct electricity. Some characteristics of inorganic compounds are almost all are insoluble inorganic solvents, they do form ions that can conduct electricity, and most have high melting points.
Here are three Inorganic Compounds. * Aluminium antimonide - AlSb * Aluminium arsenide - AlAs * Aluminium nitride - AlN You can find an very large list and explanations at the sister site for Wiki: http://en.wikipedia.org/wiki/List_of_inorganic_compounds
There are a lot more than 3 - all the carbonates - Magnesium, calcium, sodium, potassium etc. The carbides - eg Calcium and aluminum carbide Transition metal complexes e..g Nickel Tetracarbonyl Oxalate salts such as calcium oxalate otherwise known as kidney stones Ammonium Cyanate - and other cyanates the cyanides e.g potassium cyanide I could go on and on
Basically there are 3 types on changes in chemisty. 1. Inorganic Changes-reaction of elements and compounds 2. Organic Changes-reactons of mineral oils and its compound. 3. Bio-chemical changes-reactions involves protein, enzyme and hormones.
generally inorganic Some well-known antacid brands Alka-Seltzer - NaHCO3 and/or KHCO3 Andrews Antacid - CaCO3 MgCO3 Brioschi - NaHCO3 Equate - Al(OH)3 and Mg(OH)2 Gaviscon - Al(OH)3 Maalox (liquid) - Al(OH)3 and Mg(OH)2 Maalox (tablet) - CaCO3 Milk of Magnesia - Mg(OH)2 Pepto-Bismol - C7H5BiO4 Pepto-Bismol Children's - CaCO3 Rennie (tablets) - CaCO3 MgCO3 Rolaids - CaCO3 and Mg(OH)2 Tums - CaCO3 Mylanta - contains Al(OH)3 Eno - NaHCO3, Citric acid, Na2CO3 Gelusil (available in tablet and syrup form)
Some characteristics of organic compounds are that many are gases or solids that have low melting points and they do not conduct electricity. Some characteristics of inorganic compounds are almost all are insoluble inorganic solvents, they do form ions that can conduct electricity, and most have high melting points.
+4 (in most inorganic compounds) and -4 or -3 (in organic compounds)
1: CO is not an element, it is a compound. 2: There are no organic elements, only organic compounds. 3: It is inorganic as an organic compound must have both carbon and hydrogen (C and H), whereas CO only has carbon and oxygen.
Matter --- Physical classification--- 1.)Solid 2.)Liquid 3.)Gas Chemical classification--- 1.)Pure sustances - *Elements *Compounds - #Inorganic compounds #Organic compounds 2.)Mixtures - *Homogeneous *Heterogeneous
Inorganic Compounds.(you think I'm wrong, look up 'Glencoe Science - Tennessee Science - Grade 7'its 'Chapter 3 - Cell Processes , Section 1 - Chemistry of Life , page 77 , under the main idea of the passage titled 'INORGANIC COMPOUNDS')
Methane is an organic compound because it contains carbon-hydrogen bonds. Organic compounds are generally defined as compounds containing carbon-hydrogen bonds, while inorganic compounds do not contain carbon-hydrogen bonds.
There actually three(3) branches . They are :- ORGANIC ; Chemistry of carbon compounds. INORGANIC ; Chemistry of non-carbon compounds (The rest of chemistry) PHYSICAL ; Chemistry involved, with heat , light, energy, calculations, stoiciometry.
Here are three Inorganic Compounds. * Aluminium antimonide - AlSb * Aluminium arsenide - AlAs * Aluminium nitride - AlN You can find an very large list and explanations at the sister site for Wiki: http://en.wikipedia.org/wiki/List_of_inorganic_compounds
So solid compounds are generally split 3 ways, inorganic, organic and organometallic. Organic is something that consists of carbons and hydrogens, possibly among other elements, these don't include metal complexes. Organometallic encapsulate organic compounds binding metals. Exciting ones of these include transition metals, but may also contain the likes of aluminium, calcium, magnesium etc. Then inorganic chemistry doesn't have any carbon hydrogen bonds. Examples of such compounds are Sodium chloride, sulphuric acid, manganese pentacarbonyl chloride, etc
The conductivity of arsenic depends on its form (elemental, inorganic, or organic) and conditions. Elemental arsenic is a poor conductor of electricity, while inorganic arsenic compounds can conduct electricity to some extent. Organic arsenic compounds are typically non-conductive.
There are a lot more than 3 - all the carbonates - Magnesium, calcium, sodium, potassium etc. The carbides - eg Calcium and aluminum carbide Transition metal complexes e..g Nickel Tetracarbonyl Oxalate salts such as calcium oxalate otherwise known as kidney stones Ammonium Cyanate - and other cyanates the cyanides e.g potassium cyanide I could go on and on
one is sun