Sudbury est véritablement le meilleur endroit au monde pour étudier les sciences de la Terre.
Située sur la rive sud de l’un des cratères météoriques les plus grands et les mieux exposés de la planète, Sudbury, une ville à proximité de plusieurs mines de métaux communs, est véritablement le meilleur endroit au monde pour étudier les sciences de la Terre.
L’École des sciences de la Terre Harquail et son Centre de recherche en exploration minérale (CREM) se trouvent au Centre Willet Green Miller, dans la plus grande grappe d’exploration minérale et de services miniers au monde. Campés sur la rive sud de l’un des cratères météoriques les plus grands, les plus anciens et les mieux exposés de la planète, les paysages de Sudbury offrent des possibilités d’enseignement uniques sur le terrain et de recherche appliquée.
Avec plus de 330 lacs et l’accès à plus de 1 000 km de pistes, votre jardin est autant un lieu de loisir qu’un laboratoire.
Le Grand Sudbury est la plus vaste ville en Ontario par superficie terrestre, où les activités de plein air ne manquent pas grâce aux lacs et cours d’eau, terrains variés, forêts et réseaux complets de pistes et de sentiers.
Préparer les étudiants pour l’emploi et la réussite
Obtenez un baccalauréat d’un programme qui a bénéficié du plus important financement dans les 56 ans d’existence de la Laurentienne : Terre des métaux, le plus grand programme de recherche en exploration jamais entrepris au Canada. Grâce à ce financement, les étudiants du premier cycle ont la possibilité d’acquérir une précieuse expérience pratique de travail pendant l’été. Les résultats de Terre des métaux seront transférables partout dans le monde et feront du Canada une autorité dans la quête mondiale de métaux.
Profitez de classes à effectif réduit qui offrent un environnement d’apprentissage ouvert et pratique largement axé sur l’enseignement sur le terrain. L’École compte 20 professeurs, leaders reconnus dans leur domaine et lauréats de prix prestigieux, dont trois médailles Duncan Derry.
Si vous êtes citoyen canadien ou résident permanent, vous devez déposer votre candidature auprès du Centre de demande d'admission aux universités de l'Ontario (CDAUO).
Les options de grade ci-dessous seront offertes lors de la prochaine année universitaire et ne le sont pas cette année. Si vous cherchez les cours à suivre afin de compléter les options d'un programme d'une année universitaire antérieure, svp consultez avec un conseiller académique.
Pour avoir une description des différents programmes, voir l'onglet "Degree Options" en anglais.
Le cours est divisé en deux parties. La première partie étudie des concepts fondamentaux, tels que la façon dont la Terre s'est formée, comment les éléments chimiques se combinent pour former des minéraux, comment les roches se forment par la suite à partir de minéraux, la déformation des roches, la tectonique des plaques, et les ères géologiques. La deuxième partie se concentre principalement sur les catastrophes naturelles causées par les tremblements de terre, tsunamis, et éruptions volcaniques, ainsi que sur des notions fondamentales sur l'origine et la distribution des ressources métallifères et pétrolières et les aspects environnementaux reliés à l'exploitation de ces ressources. (3 h, 3 labo.) 3 cr. On ne peut pas obtenir de crédits à la fois pour GEOL 1006 et GEOL 1021.
GEOL-1006FL
Sciences de la terre
3
Cours au premier cycle
GEOL-1007EL - Introductory Geology II
Introductory Geology II
This course builds on concepts introduced in GEOL 1006 E and serves as an introduction to the methods used in reconstructing the geologic history of the Earth and its regions. Topics include the geologic time scale; dating methods; life, fossils & evolution; sedimentary environments; introduction to stratigraphy & correlation; an overview of major events in Earth history. Laboratory sessions provide an introduction to relative dating, fossils, sedimentary rocks, stratigraphy and geologic maps. PREREQ: GEOL 1006 E. (lec 3, lab 3) cr 3. Students may not retain credit for both GEOL 1007 and GEOL 1022.
GEOL-1007EL
Earth Sciences
3
Cours au premier cycle
MATH-1036FL - Calcul I
Calcul I
Au moyen d'applications, le cours présente un traitement soutenu du calcul différentiel ainsi qu'une initiation au calcul intégral. Il examine les matières suivantes : limites, continuité et dérivées des fonctions, fonctions de base, approximation par les polynômes de Taylor, formes indéterminées et règles de l'Hôpital, applications pratiques, sommation, intégration, techniques d'intégration, l'aire d'une région et volumes. Préalable : cours de 12e 4U en Fonctions avancées (minimum 60 %) ou MATH 1912 ou l'équivalent. (3 h, 1 tr.d.) 3 cr.
MATH-1036FL
Génie & informatique
3
Cours au premier cycle
CHMI-1006FL - Chimie générale I
Chimie générale I
Cours d'initiation aux principes fondamentaux de la chimie. Contenu du cours : la structure électronique des atomes et des molécules, la chimie nucléaire, la stoéchiométrie, le tableau périodique et la périodicité chimique, et les propriétés des solutions. Préalable : un cours de chimie (12e 4U) ou CHMI 1041 ou la permission du département. (3 h, 2 labo, 1 tr.d.) 3 cr.
CHMI-1006FL
École des sciences naturelles
3
Cours au premier cycle
CHMI-1007FL - Chimie générale II
Chimie générale II
Ce cours est la deuxième partie du cours d'initiation aux principes fondamentaux de la chimie. Contenu du cours : thermochimie, thermodynamique chimique, cinétique chimique, équilibre chimique, équilibre acide-base, solutions tampons, électrochimie et initiation aux principes de la chimie organique. Préalable : CHMI 1006 ou 1041 (min. 80 %). (3 h, 1 tr.d., 3 labo.) 3 cr.
CHMI-1007FL
École des sciences naturelles
3
Cours au premier cycle
PHYS-1006FL - Introduction à la physique I
Introduction à la physique I
Ce cours est le premier de deux cours d'initiation à la physique. Ce cours couvre la mécanique (dynamique et cinématique), les vecteurs et l'énergie, les propriétés de la matière, la chaleur et la thermodynamique, et les ondes. Tout le long du cours, des exemples seront tirés des sciences physiques et de la vie (3 h, 1 tut, 3 labo) 3 cr. On ne peut obtenir de crédits à la fois pour PHYS 1206 et PHYS 1006.
PHYS-1006FL
École des sciences naturelles
3
Cours au premier cycle
PHYS-1007FL - Introduction à la physique II
Introduction à la physique II
Ce cours est le deuxième de deux cours d'initiation à la physique. Ce cours couvre l'optique géométrique, l'électricité et le magnétisme, et la physique moderne. Tout le long du cours, des exemples seront tirés des sciences physiques et des sciences de la vie. Préalable: PHYS 1006 ou l'équivalent. (3 h, 1 tut, 3 labo) 3 cr.
PHYS-1007FL
École des sciences naturelles
3
Cours au premier cycle
GEOL-2006EL - Field Geology I
Field Geology I
This course introduces students to the science of field geology. In the 5 weekdays prior to the start of the fall term, students will visit a variety of geological settings in the field where students will be introduced to and learn safety in the field, basic geological observation and data recording, and basic mapping techniques both in plan and section. At each area students will undertake small (outcrop) scale mapping projects. During the fall academic term students will attend seven field trips (Friday afternoons from mid September to late October) led by faculty to examine and document specific geological environments. The final section of the course will be devoted to classroom map exercises (three point, apparent dip, strata thickness and orientation, geological cross sections - 3 hours per week). PREREQ: GEOL 1006 and GEOL 1007. cr 3.
GEOL-2006EL
Earth Sciences
3
Cours au premier cycle
GEOL-2126EL - Mineralogy I
Mineralogy I
This course provides an introduction to the crystallography of minerals emphasizing external morphology: symmetry elements, crystallographic axes, crystal systems, Miller indices, simple stereograms and crystal classes. Topics include the physical and chemical properties of minerals and how these properties are related to internal structure; packing of atoms, radius ratios and atomic coordination; derivation of chemical formulae from chemical analyses; atomic bonds and their relationship to mineral composition and structure; and unary and binary phase diagrams. The course involves systematic discussion of crystal chemistry and occurrence of main mineral groups. Laboratory work involves hand specimen examination of major mineral groups identification using crystallographic, physical and chemical properties. PREREQ: GEOL 1006/7. (lec 3, lab 3) cr 3.
GEOL-2126EL
Earth Sciences
3
Cours au premier cycle
GEOL-2127EL - Optical Mineralogy
Optical Mineralogy
This course provides an introduction to the theory and methods of optical crystallography as it relates to the passage of light through isotropic and anisotropic minerals. Laboratory periods emphasize the application of theory to the identification of minerals in thin section using a polarizing microscope. This course includes an introduction to the optical mineralogy of the most important minerals in common igneous, metamorphic and sedimentary rocks. PREREQ or COREQ: PHYS 1007. PREREQ: GEOL 2126. (lec 3, lab 3) cr 3.
GEOL-2127EL
Earth Sciences
3
Cours au premier cycle
GEOL-2237EL - Sedimentary, Igneous and Metamorphic Rocks
Sedimentary, Igneous and Metamorphic Rocks
This course examines the classification and recognition of sedimentary, igneous and metamorphic rocks, the nature of their occurrence and processes responsible for their formation. A third of the course is devoted to each of the three major lithotypes. Laboratory exercises and field-oriented assignments will focus on hand specimen material, emphasizing common mineral associations, structures and textures. PREREQ: GEOL 1006 E or GEOL 1007 E or equivalent. (lec 3, lab 3) cr 3. Students may not retain credit for both GEOL 2237 and GEOL 2017.
GEOL-2237EL
Earth Sciences
3
Cours au premier cycle
GEOL-2406EL - Paleobiology I
Paleobiology I
This course presents a broad overview of the history of life on earth over the past four billion years, outlining the importance of biological input into the making of planet Earth. Topics include the use of fossils as keys to geological time, evolution and ancient environments; the origins of life, development of the atmosphere and oceans and evolution of marine and terrestrial ecosystems in the light of plate tectonics; and morphology, paleoecology and evolution of important fossil groups, starting with bacteria, algae, vascular plants, and ending with protochordate invertebrates. Laboratory sessions deal with stromatolites, calcareous algae, vascular plants, microfossils and invertebrates (sponges, corals, bryozoans: remaining labs covered in GEOL 2407). Annual fall field trip to Manitoulin Island. Suitable for students of biology, geography or anthropology. (lec 3, lab 3) cr 3.
GEOL-2406EL
Earth Sciences
3
Cours au premier cycle
GEOL-2807EL - Geochemistry I
Geochemistry I
This course introduces the geochemistry and minerology of the Earth's crust, the chemical processes that take place at the Earth's surface, and the geochemistry of both low- and high-temperature systems. Topics include geochemical variations from core to crust, Goldschmidt's classification of the elements, the laws of thermodynamics, solution geochemistry, salts and their ions, weathering and mineral stability diagrams including carbonates, sulfates and silicates, electrochemistry and Eh-pH diagrams, soil formation, quantitative calculation of elemental variations during mineral and rock weathering, stable isotopes and their application to paleoclimatology and near-surface earth processes, radiogenic isotopes and their application in geology, and major and trace element geochemistry. PREREQ: GEOL 1007, GEOL 2126, and CHMI 1006/1007. (lec 3, lab 3) cr 3. Students may not retain credit for GEOL 3806 and GEOL 2807.
GEOL-2807EL
Earth Sciences
3
Cours au premier cycle
STAT-2246FL - Statistiques pour science et génie
Statistiques pour science et génie
Le cours traite les sujets suivants : approche intuitive des probabilités et statistique descriptive, notions de base en probabilité et variables aléatoires discrètes (distribution hypergéométrique, Bernouilli et binomiale), variables aléatoires continues (densité uniforme, gamma et normale), théorème central limite, estimation ponctuelle, test d'hypothèses (sur les proportions, moyennes, variances, tableaux de contingence et la régression/corrélation). Préalable : MATH 1036. (3 h, 1 tr.d.) 3 cr. On ne peut obtenir de crédits que pour l'un des cours suivants STAT 2246, STAT 2166, STAT 2066, MATH 2246, MATH 2236, MATH 2261, ou ENGR 2017.
STAT-2246FL
Génie & informatique
3
Cours au premier cycle
GEOL-2021EL - Geology of Earth Resources
Geology of Earth Resources
This course covers the nature and geological origin of important non-renewable resources in the Earth's crust with special reference to Canadian occurrences of metals, fossil fuels, phosphates and evaporites. This course is directed towards non-science students and is not available for credit in the B.Sc. in Geology. PREREQ: GEOL 1021/1022 E or equivalent, or permission from the instructor. (lec 3) cr 3.
GEOL-2021EL
Earth Sciences
3
Cours au premier cycle
GEOL-2046EL - Natural Hazards and Disasters
Natural Hazards and Disasters
This course focuses on several major topics: the geoscience of natural hazards, hazard prediction and human vulnerability, preparedness, mitigation and recovery from natural hazards and aims to build a foundation for critically evaluating how humans live with hazard risk, from a technical and societal point of view. This course is intended for those who wish to better understand natural hazards and to assess how the consequences of natural hazards are minimized. Prerequisites: 18 university credits. Lec. (credits 3).
GEOL-2046EL
Earth Sciences
3
Cours au premier cycle
GEOL-2066EL - Near-Surface Geophysical Methods
Near-Surface Geophysical Methods
This course addresses the physical properties of natural or anthropogenic materials in the subsurface. A number of geophysical methods will be introduced that are capable of identifying where these physical properties are anomalous. The course will provide examples from environmental science, forensic science and archaeology, including how to find sites containing potable groundwater, contaminants, hazards, ancient human workings, and illicit burials. (lec 3, lab 3) cr 3. Prerequisites: Six credits in first-year science courses, PHYS 1006 or 1206 are recommended.
GEOL-2066EL
Earth Sciences
3
Cours au premier cycle
GEOL-2501EL - An Introduction to Gemology
An Introduction to Gemology
This course explores the topic of gemology at an introductory-level, with a focus on precious and semi-precious gems along with precious metals. Topics to be covered include: physical and optical properties, geological origin, mineralogical features, methods used to process and treat them and their historical significance. The social and environmental impacts of the gem trade will also be discussed. PREREQ: 18 university credits or permission of the instructor (Lec 3) cr 3.
GEOL-2501EL
Earth Sciences
3
Cours au premier cycle
GEOL-3006EL - Field Geology II
Field Geology II
This course requires students to create one or more geological maps and a geological report that presents the geological framework for the mapping project(s) and explains the field observations. Structural mapping of polydeformed rocks will be emphasized. Field supervision for the course is normally offered during the first two weeks of May for students finishing their third year of study in an Earth Sciences program. Final maps and reports are due on the last day of the field school. This course will provide students with general skills in: 1) orientation and map reading; 2) use of GPS and air photography; 3) traverse and mapping techniques; 4) field structural analysis; and 5) technical report writing. NOTE: The course is typically held during the last week of April and first week of May PREREQ: GEOL 2006, 2126, 2237 cr 3.
GEOL-3006EL
Earth Sciences
3
Cours au premier cycle
GEOL-3206EL - Igneous Petrography
Igneous Petrography
This course provides an introduction to the physical, chemical, mineralogical, and petrographic characteristics of igneous rocks. At the end of this course, students will have a broad understanding of the processes involved in magma generation, differentiation and crystallization. They will also learn about the abundance and distribution of various types of igneous rocks and how they relate to planetary evolution and plate tectonics. Phase diagrams will be used to explain how minerals change composition as magmas cool and solidify and also to explain how magmas are generated by partial melting of crystalline assemblages. The role of volatiles in melting processes, volcanic eruptions and volcanic degassing will be discussed. The standard schemes of rock classification will be explained and applied. The laboratory component requires good understanding of optical mineralogy and involves detailed observation and description of a variety of igneous rocks. PREREQ: GEOL 2127 and GEOL 2237. (lec 3, lab 3) cr 3.
GEOL-3206EL
Earth Sciences
3
Cours au premier cycle
GEOL-3207EL - Metamorphic Petrography
Metamorphic Petrography
This course examines the description, classification and interpretation of metamorphic rocks using hand-sample, microscopic, graphical and numerical techniques. Metamorphic processes and environments of metamorphism are discussed (contact, regional and hydrothermal metamorphism; metamorphic facies and zones). Students are introduced to the use of phase diagrams, thermodynamics and phase equilibria techniques to constrain the conditions of formation of mineral + fluid assemblages. Geochronology and thermal modeling techniques are introduced. Laboratories present samples and suites of material illustrating metamorphic textures and mineralogy used to infer metamorphic reaction history and the pressure and temperature conditions of metamorphism. PREREQ: GEOL 2127 and GEOL 2237. (lec 3, lab 3) cr 3.
GEOL-3207EL
Earth Sciences
3
Cours au premier cycle
GEOL-3217EL - Sedimentology and Stratigraphy
Sedimentology and Stratigraphy
This course covers the transport and deposition of sedimentary particles, terrigenous clastic and carbonate depositional environments, sedimentary structures, lithofacies, and petrography, stratigraphic methods, and sedimentary basins. PREREQ: GEOL 2237, 2406. (lec 3, lab 3) cr 3.
GEOL-3217EL
Earth Sciences
3
Cours au premier cycle
GEOL-3306EL - Structural Geology
Structural Geology
The course examines the formation of tectonic structures in rocks. It begins with an introduction to strain and stress. This is followed by an examination of brittle structures, such as faults, cataclasites, fractures and veins, in terms of classification, recognition and modes of origin. During the second half of the course, the development of shear zones, foliations, lineations and folds is discussed with an emphasis on the interrelationships between these structures. Rock flow equations, shear sense indicators in fault zones, and grain-scale plastic deformation processes are other topics covered in the course. Laboratory work comprises: stress and strain exercises, stereographic projections, solution of 3D structural problems by descriptive geometry and stereographic projections, map interpretation of deformed areas, and interpretation of the attitude of deformed orebodies from drill hole data. PREREQ: GEOL 1006/7, 2006, and 2237. (lec 3, lab 3) cr 3.
GEOL-3306EL
Earth Sciences
3
Cours au premier cycle
GEOL-3607EL - Ore Deposits and Their Geological Environment
Ore Deposits and Their Geological Environment
This course presents an introduction to the nature, morphology, geologic setting and classification of the principal types of ore deposits and theories about their genesis. It includes a description of significant Canadian deposits and their geological and tectonic environment as well as notable deposits elsewhere in the world. Emphasis is placed on shield deposits and metallogeny, and attention is given to mineral economics, mining and metallurgical techniques, and relevant environmental issues. Laboratories introduce students to techniques used to understand ore deposits (microscopy, microprobe analysis, study of fluid inclusions and stable isotopes) and focus on specific deposits and their host rocks. PREREQ: GEOL 2127 and GEOL 2237. (lec 3, lab 3) cr 3. Students may not retain credit for both GEOL 3607 and GEOL 4606.
GEOL-3607EL
Earth Sciences
3
Cours au premier cycle
GEOL-3807EL - Geochemistry II
Geochemistry II
This course provides a quantitative treatment of thermodynamics, major element, trace element, stable isotope, and radiogenic isotope geochemistry and their applications to Earth processes at high temperatures. Topics include thermodynamics and using thermodynamic databases, equations of state, multicomponent fluids at high temperatures, solution models, phase diagrams, applications of chemical thermodynamics in petrology, applications of major elements in understanding igneous and hydrothermal processes, trace element classification and partitioning, and applications of trace element geochemistry to understanding igneous, sedimentary and hydrothermal processes. The use of radiogenic isotopes in geochronology, petrology and mineral deposits, and the use of stable isotopes in petrology and mineral deposits are discussed. PREREQ: GEOL 2807 and MATH 1036. (lec 3, lab 3) cr 3.
GEOL-3807EL
Earth Sciences
3
Cours au premier cycle
GEOL-3056EL - Computer Applications in the Earth Sciences
Computer Applications in the Earth Sciences
This course deals with the use of computer software packages aimed at compiling geological and environmental earth science field data and producing maps and diagrams of high quality. Depending on student need, these may include ArcGIS, AutoCAD, MapInfo, CorelDraw, gOcad, and Fieldlog, as well as other programs as they become available. Methods of calibrating digitized maps to geographic coordinates and exporting to other programs for final editing will be pursued. PREREQ: Must be enrolled in the four-year Geology or Environmental Earth Science program. lec 3, lab 3) cr 3.
GEOL-3056EL
Earth Sciences
3
Cours au premier cycle
GEOL-3397EL - Introductory Soil Science
Introductory Soil Science
This course introduces the formation and classification of soils, including their physical, chemical and biological properties. It also considers environmental issues involving soil. PREREQ: CHMI 1041 or grade 12 4U chemistry and GEOL 1007 or permission of the department. (lec 3, lab 3) cr 3. Crosslisted as BIOL 3397. Students may not retain credit for both GEOL 3397 and BIOL 3397.
GEOL-3397EL
Earth Sciences
3
Cours au premier cycle
GEOL-3417EL - Oceanography
Oceanography
Topics include origin of the ocean-atmosphere system; ocean basins and plate tectonic processes; marine geology, hot spots, and deep sea vents; ocean salinity, density, gases, thermal properties, heat budgets, and circulation; marine provinces; oceanic ridges, rises and trenches; life in the oceans; evolution of marine communities and marine extinctions; sediment distribution; current systems; ocean resources and their exploitation; and environmental concerns. PREREQ: GEOL 1006 or GEOL 1021; GEOL 1007 or GEOL 1022.
GEOL-3417EL
Earth Sciences
3
Cours au premier cycle
GEOL-3146EL - Physics of the Earth
Physics of the Earth
This course covers the physics of the Earth and how geophysical methods (magnetic, gravitational and seismological) can be used to infer the structure of the Earth's core, mantle and crust. It presents the contributions of geophysics to the development of plate tectonic models for ancient and modern Earth. PREREQ: GEOL 1006/1007; PHYS 1006/1007; MATH 1036 or 1912. (lec 3, tut 3) cr 3.
GEOL-3146EL
Earth Sciences
3
Cours au premier cycle
GEOL-4506EL - Tectonics, Petrogenesis and Metallogenesis
Tectonics, Petrogenesis and Metallogenesis
This synthesis course provides an integrated overview of tectonic environments and geodynamic processes and their roles in petrogenesis and metallogenesis. The course will integrate knowledge from the petrogenesis and metallogenesis of divergent margins, convergent margins, passive margins, and large igneous provinces. The course will also consider how petrogenetic processes and structural styles have varied in orogens representing a variety of crustal levels through Earth history. PREREQ: GEOL 3206, 3207, 3217, 3306, 3607, 3807. (lec 3) cr 3. Students may not retain credit for both GEOL 4506 and GEOL 4505.
GEOL-4506EL
Earth Sciences
3
Cours au premier cycle
GEOL-4016EL - Precambrian Geology
Precambrian Geology
This course introduces the geology of Precambrian regions around the world with a special emphasis on the Precambrian Shield of Canada. Topics covered include evolution of the Canadian Precambrian and its position in the continental framework; orogenic provinces; lithology, structure, metamorphism and composition; mineral deposits and metallogenic provinces of the Shield; and the Precambrian Craton and its role during subsequent eras along with problems and current research in Precambrian geology. The course includes a field trip to the Temagami Volcanic Belt, Cobalt-Haileybury region, Timmins, Noranda or Kirkland Lake regions. PREREQ: GEOL 3206/3207 and GEOL 3306 (lec 3, sem 2) cr 3. Students may not retain credit for both GEOL 4016 and GEOL 4505.
GEOL-4016EL
Earth Sciences
3
Cours au premier cycle
GEOL-4026EL - Field Geology III
Field Geology III
This course shows how geological and ore-forming problems can be solved by integrating detailed mapping with geochemical and petrographic analysis. Students create one or more geological maps and measured stratigraphic/structural sections in three areas: Noranda, Timmins and Sudbury. These areas illustrate different geological and ore-forming environments and the map areas are selected to illustrate particular geological problems. The 10-day field component begins one week prior to the fall session for students entering the 4th year of an Earth Science program. Subsequent laboratory analysis includes examination of samples, whole rock and trace element geochemical data, and thin sections representative of rock types, alteration and mineralization in each map area. Students produce final maps and a comprehensive geological report summarizing each of the map areas, including interpretations derived from geochemical and petrographic data. Students cover all extra costs associated with this course. PREREQ: completion of required 3rd-year GEOL courses and enrolment in the 4-year Earth Sciences program, or instructor's permission. (exp) cr 3.
GEOL-4026EL
Earth Sciences
3
Cours au premier cycle
GEOL-4127EL - Advanced Mineralogy
Advanced Mineralogy
An applied course designed to provide students with detailed information on specific minerals and mineral groups along with the analytical techniques used to identify and characterize them. Mineralogical topics to be discussed may include mineralogy of massive sulphide ore deposits (Fe-Ni-Cu sulfides), phase equilibria of the Fe-Ni-Cu-PGE ternary, Fe-Ti oxides, alteration minerals (chlorite, amphiboles, white micas) and application of their distribution to ore deposit exploration, the distribution, occurrence and synthesis of platinum-group minerals, classification of clay phyllosilicates, crystal chemistry and classification of zeolites, adsorptive and ion exchange properties of clays, mineralogy of orchre and laterite deposits, and alteration of primary Fe-Ni-Cu sulfides. Analytical topics to be discussed may include powder and single-crystal X-ray diffraction, Rietveld analysis of X-ray data, electron-microbeam techniques (scanning electron miscroscopy, wavelength- and energy-dispersive spectrometry), FTIR/Raman spectroscopy, and ICP-MS techniques. Students considering this course are strongly recommended to discuss the course content with the appropriate instructor prior to registration. PREREQ: GEOL 2126 and GEOL 3807. (lec 3, lab 3) cr 3.
GEOL-4127EL
Earth Sciences
3
Cours au premier cycle
GEOL-4206EL - Advanced Igneous Petrology
Advanced Igneous Petrology
This course examines advanced and unconventional topics related to igneous processes. The origin of the elements in the universe and the solar system is used as the starting point to the understanding of the composition of the Earth and the distribution of trace elements in it. The processes of core-mantle differentiation and the structure and mineralogy of the Earth's mantle will be used as a framework to understand the distribution and composition of mantle reservoirs and how they affect the chemical and isotopic composition of major magmas types. The genesis of exotic and rare magmas such as komatites, carbonatites and kimberlites is explored in detail. In addition, students are required to read, discuss and evaluate current and seminal papers. This will expose them to new developments in the field and will enhance their critical thinking skills. The laboratory component includes problem sets that use mineralogical, geochemical and thermodynamic data to determine intensive parameters such as pressure and temperature of crystallization of igneous rocks. PREREQ: GEOL 3206. (lec 3, sem) cr 3.
GEOL-4206EL
Earth Sciences
3
Cours au premier cycle
GEOL-4307EL - Polyphase Metamorphism and Deformation
Polyphase Metamorphism and Deformation
The course studies the combined metamorphic and structural changes in rocks during orogenesis. The aim of the course is to integrate concepts learned in third year metamorphic and structural courses to better understand the transformation in the structure, texture and mineralogy of rocks after depositions. During the first half of the course, students will be introduced to the concept of vorticity during rock flow, the development of structures in high strain zones of monoclinic and triclinic symmetry, the interpretation of textural relationships between microstructures and metamorphic minerals, and the analysis of porphyroblast-matrix relations. During the second half of the course, students will learn how to analyze the metamorphic and deformation history of rocks, construct petrogenetic grids, calculate metamorphic temperatures and pressures using experimental and thermodynamic data, and interpret pressure-temperature-deformation-time paths. Laboratory work will include petrographic case studies of deformed and metamorphosed suites of rocks from different tectonic environments and a field project within the Sudbury area. PREREQ: GEOL 3207 and GEOL 3306. (lec 3, lab 3) cr 3.
GEOL-4307EL
Earth Sciences
3
Cours au premier cycle
GEOL-4607EL - Ore-Forming Processes
Ore-Forming Processes
This course examines processes involved in the genesis of magmatic and hydrothermal ore deposits. Emphasis is placed on Ni-Cu-PGE and chromite deposits, the role of sulphur in silicate melts, and contamination and magma mixing. In considering hydrothermal deposits, topics include the types of hydrothermal fluids involved in mineralizing processes; sulphur and chloride species; and the solubility of metals, and alteration and hydrogen metasomatism including techniques to assess chemical gains and losses. Attention is given to porphyry copper, volcanogenic massive sulphides, epithermal and lode-Au deposits. Laboratories involve examination of selected sample suites, problem sets and a project. PREREQ: GEOL 3206/7 and GEOL 3607. (lec 3, lab 3) cr 3.
GEOL-4607EL
Earth Sciences
3
Cours au premier cycle
GEOL-4217EL - Carbonate Sedimentology
Carbonate Sedimentology
This course examines the origin, characteristics, meaning, and economic potential of carbonate sedimentary rocks, with emphasis on identification and significance of rock components, lithofacies analysis, interpretation of carbonate depositional environments and systems, diagenetic processes and products, carbonate stratigraphy and correlation, and sequence stratigraphic analysis. PREREQ: GEOL 2406 and GEOL 3217. (lec 3, lab 3) cr 3.
GEOL-4217EL
Earth Sciences
3
Cours au premier cycle
GEOL-4226EL - Pleistocene and Glacial Geology
Pleistocene and Glacial Geology
The topics of this course include continental and alpine glaciation, erosional and depositional facies and dynamic processes, glacial climates and their origin, ancient glaciations (Huronian, late Precambrian, Ordovician, late Paleozoic), glacio-marine environments, glaciations and floral-faunal changes, extinctions, and coeval low latitude environments. Laboratories deal with glacial geomorphology, sediments, and principles of correlation. Local field trips examine gravel deposit, glacial varvites (clays) and soils. PREREQ: GEOL 3217 or permission of instructor. (lec 3, lab 3) cr 3.
GEOL-4226EL
Earth Sciences
3
Cours au premier cycle
GEOL-4956EL - Mineral Exploration Geophysics
Mineral Exploration Geophysics
This course provides an overview of geophysical exploration methods, including gravity, magnetic, electrical, induced polarization, electromagnetic, seismic, gamma-ray spectrometric and down-hole logging methods. The course provides examples from mineral exploration and discusses approaches to the interpretation of geophysical data. PREREQ: Completion of 60 university credits which include GEOL 1006/1007; PHYS 1006 /1007; MATH 1036 or 1912. (lec 3, lab 3) cr 3.
GEOL-4956EL
Earth Sciences
3
Cours au premier cycle
GEOL-4005EL - Thesis
Thesis
This course is a thesis requiring independent research and the guidance of one or more faculty members. The subject is chosen by the student in consultation with the course coordinator and the supervising professor. Students are encouraged to obtain permission of their employer to use material gathered during the summer as a basis for the thesis. The thesis is defended orally and a final draft, suitable for defence, is normally submitted at least two weeks before the end of classes of the second term. PREREQ: minimum 70% average on required courses or permission of the chair. (sem, exp) cr 6.
GEOL-4005EL
Earth Sciences
6
Cours au premier cycle
GEOL-4037EL - Applied Remote Sensing
Applied Remote Sensing
This course includes lectures, seminars and projects covering the application of remote sensing to geological, land cover and water quality mapping. Projects are chosen from within these fields where data sets are available and are structured to address issues specific to the particular application, as well as general remote sensing issues such as atmospheric correction, statistical vs. biophysical modelling approaches, and multi data-type integration. PREREQ: GEOG 3037, a statistics course, and GEOL 1007, or permission of the department. (lec 3, lab 3) cr 3.
GEOL-4037EL
Earth Sciences
3
Cours au premier cycle
GEOL-4706EL - Hydrogeology
Hydrogeology
This course presents an introduction to hydrogeology covering hydrogeologic properties of porous media, flow nets, groundwater resource evaluation, groundwater chemistry, geology of groundwater occurrence, groundwater and the hydrologic cycle, and groundwater contamination. PREREQ: GEOL 1006/7, CHMI 1006/7 and MATH 1912 or 1036. (lec 3, lab 3) cr 3.
GEOL-4706EL
Earth Sciences
3
Cours au premier cycle
GEOL-4416EL - The Global Change-The Geologic Record
The Global Change-The Geologic Record
This course examines the long-term record of global change as reflected in sedimentary rocks, fossil faunas and floras, and low temperature isotope geochemistry. Topics include major changes in biogeochemical cycling processes through geologic time; lithosphere-ocean-atmosphere interactions; sedimentary suites and fossils as paleoclimatic keys; sedimentary processes related to global change; plate tectonic and mountain building as forcing mechanisms for climatic change; and extraterrestrial forcing. (lec 3) cr 3. Designed for senior-level students.
GEOL-4416EL
Earth Sciences
3
Cours au premier cycle
GEOL-4946EL - Seismic Methods
Seismic Methods
This course covers the principles of seismology, body and surface wave propagation, attenuation, resolution, elastic properties of rocks; equipment and procedures for acquisition and processing of reflection, refraction, surface wave and VSP data; procedures for interpretation of data so as to extract earth models, including velocity and depth information and sequence stratigraphy. The course will include case histories of seismic methods for resolving subsurface features. PREREQ: 30 university credits, which include MATH 1036, 1037; PHYS 1006. Recommended MATH 2037. (lec 3, lab 3) cr 3