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Mineralogy and petrology of the Tichegami Group amphibolites, Mistassini Territory, New QuebecWaychison, Mark Michael H. January 1976 (has links)
No description available.
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Petrology and mineralogy of radioactive granitic rocks near Baie Johan Beetz, QuebecHauseux, Marcelle Aline January 1976 (has links)
No description available.
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Chazy group carbonate sedimentology and diagenesis : southern QuebecVan Stempvoort, Dale. January 1985 (has links)
No description available.
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Women of valour : literacy as the creation of personal meaning in the lives of a select group of Hassidic women in QuebecSepinwall, Sharyn Weinstein. January 2002 (has links)
No description available.
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15 |
The geological exploration of kimberlitic rocks in Québec /Hartzler, Joy R. January 2007 (has links)
No description available.
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Causes des départs prématurés des enfants des écoles françaises au Québec, analysées à travers les Rapports du Surintendant de l'Instruction publique de la Province de Québec, 1911-1921.Courchesne, Laurin, Helène. January 1989 (has links)
No description available.
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Power-sharing in the Protestant education system in Quebec : an examination of the optionsOliver, David Nelson. January 1981 (has links)
No description available.
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18 |
The contributions of Montreal holocaust survivor organizations to Jewish communal life /Giberovitch, Myra January 1988 (has links)
No description available.
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The geological exploration of kimberlitic rocks in Québec /Hartzler, Joy R. January 2007 (has links)
Diamonds have been discovered in a variety of potassic ultramafic rocks including group-I and group-II kimberlites, olivine lamproites and aillikites, all of which are macroscopically similar and can be difficult to differentiate when viewed under the microscope. However, group-I kimberlites, and to a much lesser extent group-II kimberlites and olivine lamproites, are known to contain economic concentrations of diamonds. This study addresses the problem of distinguishing among different types of kimberlitic and related rocks by developing a geochemically-based method for classifying them. / Geochemical methods have been largely ignored in the classification of kimberlites and related rock types due to high concentrations of xenoliths. However, this problem can be largely overcome by only selecting matrix material for analysis. An evolving kimberlitic magma will become enriched or improvished in Si due to the fractionation of olivine and phlogopite, depending on the initial Si concentration of the magma. As they have low Si concentrations, group-I kimberlites and aillikites can be separated from group-II kimberlites and meimechites, which have higher Si concentrations for any Mg content. Furthermore, since aillikites and meimechites are relatively rich in Fe compared to group-I and group-II kimberlites, these rock types form four separate fields on a Si vs. Fe discrimination diagram. Similar rock-type separation is observed when the ratio of La to Yb is plotted against the ratio of Sm to Yb. Kimberlite and other potassic ultramafic rocks were sampled from nine areas in Quebec: the Otish Mountains, Wemindji, Torngat Mountains, Desmaraisville, Temiscamingue, Ile Bizard, Lac Leclair, Baie James and Ayer's Cliff regions. Major and selected trace element concentrations were determined by XRF analysis for all samples, while a subset of representative samples was selected for trace element analysis by ICP-MS. Electron microprobe analyses of unaltered olivine and phlogopite were also conducted. / Of the 37 samples that were classified both mineralogically and chemically, 23 or 62% were correctly classified using Fe and Si. This number increases to 84%, if the REE are used in conjunction with Si and Fe. The Si vs. Fe discrimination diagram separates group-I kimberlite from most aillikite and meimechite rocks and group-II kimberlite/olivine lamproite rocks from most aillikite and meimechite rocks. Therefore, major and trace element geochemistry offers an important tool for the classification of kimberlitic rocks. / Vasilenko et al. (2002) and Francis (2003) both suggested that diamond grades can be correlated with the major element compositions of the kimberlites. The data collected in this study confirm the inverse relationship between TiO2 concentration and diamond grade. The lowest TiO 2 values were obtained on samples from the Otish Mountains and Renard samples in particular. Other areas of Quebec are characterized by higher TiO2 contents with most samples containing greater than 2 wt% TiO 2. Therefore, the kimberlitic rocks from the Renard locality have the greatest potential for an economic diamond deposit. The origin of this correlation needs to be explored, however, because it is unclear whether this is a feature of the mantle source, or reflects the survivability of diamonds within the kimberlites.
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Fluid drilling as a method of vegetable crop establishment in QuebecChevrier, Gerald E. (Gerald Edward) January 1983 (has links)
No description available.
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