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Nitrogen - N General Information Discovery Nitrogen was discovered by Daniel Rutherford in 1772 in Edinburgh, Scotland, but Scheele, Cavendish, Priestley and others about the same time studied "burnt or dephlogisticated air", as air without oxygen was then called. Appearance Nitrogen is a colourless, odourless gas. Source Nitrogen makes up 78% of the air, by volume. From this inexhaustible source it can be obtained by liquefaction and fractional distillation. Uses The largest consumer of nitrogen in our society is the ammonia industry - the Haber Process - to manufacture fertilisers. Large amounts of gas are also used by the electronics industry, which uses the gas as a blanketing medium during production of such components as transistors, diodes etc. Large quantities of nitrogen are used in annealing stainless steel and other steel mill products. The drug industry also uses large quantities. Nitrogen is used as a refrigerant both for the immersion freezing of food products and for the transportation of food. Liquid nitrogen is also used in missile work and by the oil industry to build up great pressures in wells to force crude oil upwards. Biological Role Nitrogen is the basis of life as it is part of the DNA molecule and of proteins. General Information The element nitrogen is so inert that Lavoisier named it 'azote' , meaning 'without life' , yet its compounds are so active as to be most important in many essential foods, fertilisers, poisons and explosives - as well as in all living organisms. When nitrogen is heated it combines directly with magnesium, lithium and calcium. When mixed with oxygen and subjected to electric sparks, it forms first nitrogen monoxide and then nitrogen dioxide. When mixed with hydrogen and heated under pressure, ammonia is formed (the Haber Process). |
| Physical Information | |||
| Atomic Number | 7 | ||
| Relative Atomic Mass (12C=12.000) | 14.007 | ||
| Melting Point/K | 63.29 | ||
| Boiling Point/K | 77.4 | ||
| Density/kg m-3 | 1.25 (gas, 273K) | ||
| Ground State Electron Configuration | [He]2s22p3 | ||
| Electron Affinity(M-M-)/kJ mol-1 | +31 |
| Key Isotopes | ||||||
| nuclide | 14N | 15N | ||||
| atomic mass | 14.003 | 15.000 | ||||
| natural abundance | 99.63% | 0.37% | ||||
| half-life | stable | stable |
| Other Information | ||
| Enthalpy of Fusion/kJ mol-1 | 0.720 | |
| Enthalpy of Vaporisation/kJ mol-1 | 5.577 | |
| Oxidation States | ||
| N-3, N-2, N-1, N0, N+2, N+3, N+4, N+5 | ||
| Covalent Bonds /kJ mol-1 | ||
| N - H | 390 | |
| N - N | 160 | |
| N = N | 415 | |
| N º N | 946 | |
| N - Cl | 193 | |
| N - C | 286 | |
| N = C | 615 | |
| N º C | 887 | |
| Ionisation Energies/kJ mol-1 | ||
| M - M+ | 1402.3 | |
| M+ - M2+ | 2856.1 | |
| M2+ - M3+ | 4578.0 | |
| M3+ - M4+ | 7474.9 | |
| M4+ - M5+ | 9440.0 | |
| M5+ - M6+ | 53265.6 | |
| M6+ - M7+ | 64358.7 | |
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