Chemical elements: Difference between revisions
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We recall that an [[atom]] consists of a positive [[nucleus (physics)|nucleus]] of charge ''eZ'', where ''e'' is the [[elementary charge]], and the integral number ''Z'' is the [[atomic number]]. Remember that ''Z'' electrons (of charge −''e'') "orbit" the nucleus, so that an atom is neutral. The elements are distinguished by their value of ''Z''. For instance, the elements just mentioned have the ''Z''-value in brackets: hydrogen(1), oxygen(8), carbon(6), neon(10), plutonium(94). The naturally occurring elements have ''Z''-values from 1 to 94 (with plutonium being extremely rare in nature and mainly man-made). The man-made elements run from ''Z'' = 95 to 118. The names of the elements are of historical origin and may vary between languages. The atomic number ''Z'' is a unique and universal label of an element, as is its international chemical symbol consisting of one or two letters. | We recall that an [[atom]] consists of a positive [[nucleus (physics)|nucleus]] of charge ''eZ'', where ''e'' is the [[elementary charge]], and the integral number ''Z'' is the [[atomic number]]. Remember that ''Z'' electrons (of charge −''e'') "orbit" the nucleus, so that an atom is neutral. The elements are distinguished by their value of ''Z''. For instance, the elements just mentioned have the ''Z''-value in brackets: hydrogen(1), oxygen(8), carbon(6), neon(10), plutonium(94). The naturally occurring elements have ''Z''-values from 1 to 94 (with plutonium being extremely rare in nature and mainly man-made). The man-made elements run from ''Z'' = 95 to 118. The names of the elements are of historical origin and may vary between languages. The atomic number ''Z'' is a unique and universal label of an element, as is its international chemical symbol consisting of one or two letters. | ||
There is a maximum to the number of elements due to the fact that a nucleus contains ''Z'' positively charged particles (protons). These repel each other by [[Coulomb's law|Coulomb force]]s and are bound together by [[strong force|strong nuclear forces]]. At a certain number of protons the strong nuclear forces will lose from the Coulomb forces—which add up with increasing number of protons—and the nucleus will no longer be stable. This is likely to happen between ''Z'' = 120 and ''Z'' = 130. | |||
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Revision as of 07:02, 13 June 2008
In chemistry, an element is a type of atom. All matter around us (solids, liquids, and gases) are made up of atoms. In nature there are 94 different atomic species—elements. Some elements are very abundant. For instance water is made up of the elements hydrogen and oxygen and, obviously, there is much water in the oceans. The element carbon is an important part of most living creatures as well as of fossil fuels, which are the remains of plant material that once lived. Other elements (atoms) are rare on earth, such as the noble gas neon. Some elements are stable (live for ever), while some elements have finite life times and decay to other elements, while sending out radiation (these are the so-called radioactive elements). A well-known radioactive element is plutonium. About 20 elements are man-made, they are characterized by having very short life times and being radioactive.
We recall that an atom consists of a positive nucleus of charge eZ, where e is the elementary charge, and the integral number Z is the atomic number. Remember that Z electrons (of charge −e) "orbit" the nucleus, so that an atom is neutral. The elements are distinguished by their value of Z. For instance, the elements just mentioned have the Z-value in brackets: hydrogen(1), oxygen(8), carbon(6), neon(10), plutonium(94). The naturally occurring elements have Z-values from 1 to 94 (with plutonium being extremely rare in nature and mainly man-made). The man-made elements run from Z = 95 to 118. The names of the elements are of historical origin and may vary between languages. The atomic number Z is a unique and universal label of an element, as is its international chemical symbol consisting of one or two letters.
There is a maximum to the number of elements due to the fact that a nucleus contains Z positively charged particles (protons). These repel each other by Coulomb forces and are bound together by strong nuclear forces. At a certain number of protons the strong nuclear forces will lose from the Coulomb forces—which add up with increasing number of protons—and the nucleus will no longer be stable. This is likely to happen between Z = 120 and Z = 130.
Notes
- Ag (silver) is from Argentum
- Au (gold) is from Aurum
- Cu (copper) is from Cuprum
- Fe (iron) is from Ferrum
- Hg (mercury) is from Hydrargyrum
- K (potassium) is from Kalium
- Na (sodium) is from Natrium
- Pb (lead) is from Plumbum
- Sb (antimony) is from Stibium
- Si (silicon) is from Silicium
- Sn (tin) is from Stannum
- W (tungsten) is from Wolfram
- Man-made elements Z = 112, ..., 118 are not listed