How large is the natural variation in concentration of the various elements in different media? How do the oft-cited "World average concentrations" in different media compare with actual analytical data? How low a detection limit do I need to attain if I want to analyse for an element in soils, sediments, water or plants? All these questions and many more can be answered by using this unique reference book. It collates data on the most important properties and uses of all naturally occurring chemical elements. It combines these with data obtained from actual analyses of different sample media (soil, stream sediment, stream water, ground water, plants, human body fluids). This combination of facts and actual data makes this book suitable for learning and teaching applied geochemistry as well.
A surface geochemical survey was conducted to help identify, in conjunction with recent geophysical surveys and other data sets, areas within the southern Thomson Orogen that could benefit from a stratigraphic drilling program to test geological models, and to provide information about potential regions associated with mineralisation. The study covered an area of ~185 000 km2 straddling the New South Wales-Queensland border and consists of samples collected during a 2006 Cooperative Research Centre for Landscape Environments and Mineral Exploration (CRC LEME) study in New South Wales and samples from a field campaign carried out by Geoscience Australia in October-November 2013 in Queensland ..."--Online abstract.
How large is the natural variation in concentration of the various elements in different media? How do the oft-cited "World average concentrations" in different media compare with actual analytical data? How low a detection limit do I need to attain if I want to analyse for an element in soils, sediments, water or plants? All these questions and many more can be answered by using this unique reference book. It collates data on the most important properties and uses of all naturally occurring chemical elements. It combines these with data obtained from actual analyses of different sample media (soil, stream sediment, stream water, ground water, plants, human body fluids). This combination of facts and actual data makes this book suitable for learning and teaching applied geochemistry as well.
In Louis Pasteur, the distinguished French immunologist and physician Patrice Debre offers the most extensive, balanced, and detailed account of the scientist's life, struggles, and contributions yet written. First published in France in 1994 to mark the centenary of Pasteur's death in 1895, Debre's biography draws heavily on Pasteur's own scientific notebooks and writings to present a complete critical account of his discoveries and of the controversies they raised with other scientists, occasionally with his closest associates, and with historians ever since. Debre provides an extremely well documented narrative of Pasteur's life and family, as well as his relations with the French government and the established scientific and medical communities. And he places Pasteur in historical context, describing the politics and culture of nineteenth-century France and sketching portraits of the other scientists, including Marcelin Berthelot, Emile Littre, and Claude Bernard, whose life or work became intertwined with Pasteur's.
Patrice Gueniffey, the leading French historian of the Revolutionary and Napoleonic age, takes up the epic narrative at the heart of this turbulent period: the life of Napoleon himself, from his boyhood in Corsica, to his meteoric rise during the Italian and Egyptian campaigns, to his proclamation as Consul for Life in 1802.
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