Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
20410091 -
MINERALOGIA E OTTICA MINERALOGICA
(objectives)
The course will provide student knowledge base of geological mineralogy and technical skills base of optical mineralogy
-
BELLATRECCIA FABIO
( syllabus)
Course Program – 1st semester Introduction. Definition of crystal and mineral. Mineralogy in earth science. Minerals as economic resource. History of mineralogy. Crystal morphology. Symmetry and symmetry operations. The 32 points groups. Crystallographic axes. The 32 classes and seven systems of crystals. Axial ratios, Weiss parameters, Miller indices of crystal faces. Crystal forms and crystal habit. Twinning. Stereographic projection of crystal faces and forms. Crystal structures. Translational symmetry: rows, plane and three-dimensional lattices. The 14 Bravais lattices. Symmetry operations with translation: screw axes and glide planes. The 230 space groups. Crystal chemistry. Atoms and ions: structure, electron affinity, ionization energy, electronegativity, atomic and ionic radii. Chemical bonds and bonding. Packing, coordination, charge balance. Pauling's rules. Energetics and mineral stability. Basic thermodynamic concepts. Crystallization and crystal growth. Solid solutions. Phase transitions and phase diagrams. Polymorphism. Twinning and crystal defects. Chemical composition of minerals. Calculation of mineral formulas from chemical analyses. Graphical representation and interpretation of data. Physical properties of minerals. Mechanical (hardness, cleavage, tenacity etc.), electrical, magnetic properties. Specific gravity. Color and optical effects (asterism, chatoyancy, play of colors, etc.). Systematic mineralogy. Mineral classification. Systematic of non-silicate minerals. Systematic of silicate minerals. Practical. Crystal morphology. Stereographic projections. Identification of minerals in hand specimen.
Course Program – 2nd semester. Optical properties. Nature of light as an electromagnetic wave: wave nomenclature, wave front, wave normal, phase and interference. Polarizing microscope. Reflection, refraction, dispersion and polarization. Refractive indices and Snell's law. Birefringence. Uniaxial and biaxial indicatrix. Optical properties of minerals using polarized light: color, form and habit, cleavage, pleochroism, refractive index, relief, Becke line. Optical properties of minerals using crossed polars: interference colors, extinction, and elongation sign. Optical properties of minerals using convergent polarized light: uniaxial and biaxial interference figures (optic sign, 2v and birefringence). Optical properties of the most common rock forming minerals. Laboratory. Introduction to the petrographic microscope. Relief and Becke line test. Color and pleochroism. Interference colors and birefringence estimation. Interference figures of uniaxial and biaxial minerals. Optical properties and identification of the principal rock forming minerals.
( reference books)
Klein c. (2004). Mineralogia. Zanichelli. Deer W.A., Howie R.A. & Zussman Jj. (1994). Introduzione ai minerali che costituiscono le rocce. Zanichelli. Mottana A. (1989). Fondamenti di mineralogia geologica. Zanichelli.
And eventually also: Dyar M.D. e Gunter M. (2008). Mineralogy and optical mineralogy. Mineralogical Society of America. Putnis A. (1992). Introduction to Mineral Sciences. Cambridge University Press. Bloss F.D. (1999). Optical crystallography. Mineralogical Society of America.
|
12
|
GEO/06
|
56
|
-
|
60
|
-
|
Core compulsory activities
|
ITA |
20410640 -
GEOLOGY I AND LABORATORY AND INTERDISCIPLINARY SUMMER FIELD COURSE
(objectives)
To provide basic elements to recognize, describe and classify sedimentary, magmatic and metamorphic rocks; reconstruction of genetic process and tectonic environment. Recognize, analyze and describe tectonic structure.
-
CORRADO SVEVA
( syllabus)
LECTURES Module 1. INTRODUCTION Plate tectonics and plate margins. The Wilson cycle. Composition and structure of the crust and lithosphere: continental and oceanic (ophiolites). Main provinces composing the plates. Distribution of rocks on the Earth's surface in the world and in Italy. The rock cycle. General concepts and principles of stratigraphy. The time scale. Stratigraphic units. Lithostratigraphy (units and relationships between units) and its applications (e.g., geological maps, sedimentary environments, correlations). Main sedimentary basins in divergent, convergent and transcurrent contexts: classification and controlling factors. Main deformation mechanisms in the crust. Module 2. LITHOGENESIS AND DEFORMATION OF DIVERGENT MARGINS Distribution of divergent margins in the plate puzzle. Brittle extensional tectonics: normal faults, normal fault systems (geometry, kinematics). Extensional sedimentary basins and their tectono-stratigraphic evolution: from continental rift to oceanic rift, development of passive margins. Anatomy and classification of passive margins. Salt tectonics. Oceanic rift (morphology, magmatism, metamorphism). Models of divergent margin evolution: pure shear, simple shear. Module 3. LITHOGENESIS AND DEFORMATION OF CONVERGENT MARGINS Distribution of convergent margins in the plate puzzle. Evolution of convergent margins: from subduction to collision (magmatism and metamorphism). Brittle compressional tectonics: reverse faults, overthrusts, folds. Fold and overthrust systems (geometry, kinematics). Sedimentary basins in convergent contexts and their tectono-stratigraphic evolution: oceanic trench basins, forearc and retroarc basins, foredeep and thrust-top basins. Anatomy and classification of orogens. Module 4. LITHOGENESIS AND DEFORMATION OF TRANSFORM MARGINS Distribution of transform margins in the plate puzzle. Brittle transcurrent tectonics: transcurrent faults and strike-slip deformation systems (geometry, kinematics). Sedimentary basins in transcurrent contexts.
IN-DOOR LABORATORY Introduction to the study of sedimentary rocks; siliciclastic rocks; carbonate rocks and marine carbonate environments; evaporitic rocks; rocks of organic origin; residual rocks. Introduction to Geological Map Reading. Reading and interpretation of the geological map of the Grand Canyon on a small scale, Sora sheet on a 100,000 scale, Spoleto sheet on a 50,000 scale, use of stereographic projections to represent geological planes and lines, use of the compass.
FIELD TRIP (Interdisciplinary field work) Geological-regional Excursion through the central Italy, from the Tuscan-Lazio peri-Tyrrhenian extensional margin to the Umbria-Marche Apennine fold and thrust belt, with the development of three main themes and five thematic exercises for the collection and processing of field data. Theme 1. Tectono-stratigraphic evolution of the peri-Tyrrhenian margin (Tarquinia, Civitavecchia) Aims and methods: reconstruction of coastal uplift through morphological survey and micropaleontological sampling of marine terraces (in the field), microscopic analysis of microfauna meaning for age and facies assessment, analysis of aerial photographs, integration of analytical results (in the classroom), calculation of uplift and drafting of a descriptive report on the recent evolution of the margin. Theme 2. Tectonic, magmatic and sedimentary evolution of the peri-Tyrrhenian margin and relations with the compressional evolution of the Apennine chain (Boccheggiano, Massa Marittima) Aims and methods: reconstruction of survey excerpts and framing of the deformation style and extensional kinematics and of the associated lithogenetic processes (igneous, sedimentary, metamorphic rocks) by means of geological survey for the collection of field data, measurement of plane and line attitude, rock recognition, processing of the data collected for the reconstruction of the main structures surveyed. Theme 3. Tectonic-stratigraphic evolution of the Apennine chain in the Umbria-Marches domain (Valnerina) Aims and methods: reconstruction of simple geological maps and regional cross sections to assess the deformation style and kinematics of Miocene compressional tectonics and Quaternary extensional tectonics. Collection of meso-scale structural data. Reconstruction of the Meso-Cenozoic stratigraphic succession. Pleistocene stratigraphic and morphologic evolution (through travertine analysis) of the Nera River at the confluence with the Corno River. Reading and interpretation of geological and topographical cartography at various scales.
( reference books)
Handouts and scientific articles distributed by the lecturer
Mottana M., Crespi R. Minerali e rocce. ISBN 9788837029562
PRESS Frank , SIEVER Raymond , GROTZINGER John , JORDAN Thomas H 2006. CAPIRE LA TERRA. ISBN 978-8808-07991-6 Trad. di P. Fredi, revisione di E. Lupia Palmieri e M. Parotto. Zanichelli ed. pp. 672
Tucker ME 2010. Geologia del sedimentario 2010. Rocce, strutture sedimentarie, ambienti deposizionali. ISBN 9788857900414. 384 pp.
Venturini c. 2012. Realizzare e leggere carte e sezioni geologiche Un approccio alla geologia di terreno e alla sua rappresentazione cartografica. dario flaccovio ed.ISBN 9788857901534. pp.224.
-
BALLATO PAOLO
( syllabus)
Module 1. INTRODUCTION Plate tectonics and plate margins. The Wilson cycle. Composition and structure of the crust and lithosphere: continental and oceanic (ophiolites). Main provinces composing the plates. Distribution of rocks on the Earth's surface in the world and in Italy. The rock cycle. General concepts and principles of stratigraphy. The time scale. Stratigraphic units. Lithostratigraphy (units and relationships between units) and its applications (e.g., geological maps, sedimentary environments, correlations). Main sedimentary basins in divergent, convergent and transcurrent contexts: classification and controlling factors. Main deformation mechanisms in the crust.
Module 2. LITHOGENESIS AND DEFORMATION OF DIVERGENT MARGINS Distribution of divergent margins in the plate puzzle. Brittle extensional tectonics: normal faults, normal fault systems (geometry, kinematics). Extensional sedimentary basins and their tectono-stratigraphic evolution: from continental rift to oceanic rift, development of passive margins. Anatomy and classification of passive margins. Salt tectonics. Oceanic rift (morphology, magmatism, metamorphism). Models of divergent margin evolution: pure shear, simple shear.
Module 3. LITHOGENESIS AND DEFORMATION OF CONVERGENT MARGINS Distribution of convergent margins in the plate puzzle. Evolution of convergent margins: from subduction to collision (magmatism and metamorphism). Brittle compressional tectonics: reverse faults, overthrusts, folds. Fold and overthrust systems (geometry, kinematics). Sedimentary basins in convergent contexts and their tectono-stratigraphic evolution: oceanic trench basins, forearc and retroarc basins, foredeep and thrust-top basins. Anatomy and classification of orogens.
Module 4. LITHOGENESIS AND DEFORMATION OF TRANSFORM MARGINS Distribution of transform margins in the plate puzzle. Brittle transcurrent tectonics: transcurrent faults and strike-slip deformation systems (geometry, kinematics). Sedimentary basins in transcurrent contexts.
IN-DOOR LABORATORY Introduction to the study of sedimentary rocks; siliciclastic rocks; carbonate rocks and marine carbonate environments; evaporitic rocks; rocks of organic origin; residual rocks. Introduction to Geological Map Reading. Reading and interpretation of the geological map of the Grand Canyon on a small scale, Sora sheet on a 100,000 scale, Spoleto sheet on a 50,000 scale, use of stereographic projections to represent geological planes and lines, use of the compass.
FIELD TRIP (Interdisciplinary field work) Geological-regional Excursion through the central Italy, from the Tuscan-Lazio peri-Tyrrhenian extensional margin to the Umbria-Marche Apennine fold and thrust belt, with the development of three main themes and five thematic exercises for the collection and processing of field data.
Theme 1. Tectono-stratigraphic evolution of the peri-Tyrrhenian margin (Tarquinia, Civitavecchia) Aims and methods: reconstruction of coastal uplift through morphological survey and micropaleontological sampling of marine terraces (in the field), microscopic analysis of microfauna meaning for age and facies assessment, analysis of aerial photographs, integration of analytical results (in the classroom), calculation of uplift and drafting of a descriptive report on the recent evolution of the margin.
Theme 2. Tectonic, magmatic and sedimentary evolution of the peri-Tyrrhenian margin and relations with the compressional evolution of the Apennine chain (Boccheggiano, Massa Marittima) Aims and methods: reconstruction of survey excerpts and framing of the deformation style and extensional kinematics and of the associated lithogenetic processes (igneous, sedimentary, metamorphic rocks) by means of geological survey for the collection of field data, measurement of plane and line attitude, rock recognition, processing of the data collected for the reconstruction of the main structures surveyed.
Theme 3. Tectonic-stratigraphic evolution of the Apennine chain in the Umbria-Marches domain (Valnerina) Aims and methods: reconstruction of simple geological maps and regional cross sections to assess the deformation style and kinematics of Miocene compressional tectonics and Quaternary extensional tectonics. Collection of meso-scale structural data. Reconstruction of the Meso-Cenozoic stratigraphic succession. Pleistocene stratigraphic and morphologic evolution (through travertine analysis) of the Nera River at the confluence with the Corno River. Reading and interpretation of geological and topographical cartography at various scales.
( reference books)
Lecture notes and scientific articles distributed by the teacher
Mottana M., Crespi R. Minerali e rocce. ISBN 9788837029562
PRESS Frank , SIEVER Raymond , GROTZINGER John , JORDAN Thomas H 2006. CAPIRE LA TERRA. ISBN 978-8808-07991-6 Trad. di P. Fredi, revisione di E. Lupia Palmieri e M. Parotto. Zanichelli ed. pp. 672
Tucker ME 2010. Geologia del sedimentario 2010. Rocce, strutture sedimentarie, ambienti deposizionali. ISBN 9788857900414. 384 pp.
Venturini c. 2012. Realizzare e leggere carte e sezioni geologiche Un approccio alla geologia di terreno e alla sua rappresentazione cartografica. dario flaccovio ed.ISBN 9788857901534. pp.22
-
MOLIN PAOLA
( syllabus)
Study of marine terraces (Tarquinia and Montalto di Castro area, northern Latium) and their tectonic meaning by field survey, air-photo interpretation and palaeontologic analysis.
( reference books)
hand-outs provided by the professor
-
GLIOZZI ELSA
( syllabus)
The first part of the Muldisciplinary field activity (Paleontology) consists of one day on the field and two ays of laboratorial activity. The field activity is carried out in the Tarquinia and Montalto Di Castro areas (northern Latium) the laboratorial activity is developed in the Roma Tre Laboratory of Paleontology and Photogeology, provided with steromicroscopes. During the first day, students learn how to draw a stratigraphic log of two sedimentary successions, characterised by different thicknesses and lithologies, measuring the bedding and making microscopical observations on the rock texture, mineralogical and paleontological composition (with the 10x lens). Students collect two samples that will be studied in the following days. During the two following days in the Lab, students carry on the micropaleontological analysis of the collected samples, counting benthic and planktonic foraminifers and picking the ostracod valves for their specific identification and the calculation of the percentage frequencies. At the end of the analyses, students, guided by teachers, discuss the results providing the palaeoenvironmental reconstruction of the examined sedimentary successions in the frame of the landscape evolution. Finally, students are required to write a report which includes two topographic profiles, two geomorphological maps of terraces, the calculations to obtain the palaeo-bathymetry of the examined deposits and the Plio-Pleistocene uplift rates of the studied Tyrrhenian coastal sector.
( reference books)
Atlas of Ostracods (Teacher handhouts)
|
11
|
GEO/03
|
48
|
-
|
36
|
-
|
Core compulsory activities
|
ITA |
20410521 -
GEOPHYSICS AND LABORATORY
(objectives)
The students will learn to apply the theoretical concepts acquired in the previous physics courses to study the properties of continuous media, both in laboratory than in geophysical methodologies. The students will thus learn to describe, in a quantitative manner, the behaviour of natural systems and the principles of continuum mechanics and rheology with physical/mathermatical models
-
CAMMARANO FABIO
( syllabus)
Introduction and math background: scalars and vector operations, divergence, curl, gradient, tensors, matrix algebra Elasticity: stress and strain tensors, Hooke's law, general elasticity relationships, Elastic moduli: Young, incompressibility, shear, Lamè constants, circular diagram of 2-D stress (Mohr circle). Granular media: classificationa and mechanical properties, strenght, lishopsheric stress pattern, saturated media: Terzahi principle, effective pressure, total pressure. Dyanmic conditions, flow motion and Darcy's law Rheology: Fragile behaviour, viscositym visco-elastic models (MAxwella nd Kelving-Voigt) . Elastic waves: origin and propagation of P and S- waves, reflection and transmission coefficients, moment tensor and focal mechanisms (beach balls)
( reference books)
- Introduzione alla Meccanica delle Terre e delle Rocce (Cozzi, Della Monica) - Fundamental of Geophysics, Lowrie, Cambridge ed.
|
9
|
GEO/10
|
48
|
-
|
36
|
-
|
Core compulsory activities
|
ITA |
Optional group:
comune Orientamento unico A SCELTA II O III ANNO - (show)
|
12
|
|
|
|
|
|
|
|
20402347 -
INTRODUCTION TO TECTONICS
(objectives)
Provide the tectonics foundations: origin of deformative elements, their architecture, evolution and geodynamic framework. Highlight the interaction between tectonics and both shallow (sedimentation, erosion) and deep (mantle convection) processes. Introduce the main methodologies adopted to study the tectonics. introduce the hazard related to tectonic processes. Each argument will be presented offering an initial basic theoretical background which will be subsequently implemented by the widest range of updated interpretations and natural examples. Students will be expected to actively participate to the class activities (e.g. reading scientific papers, homework assignments, class participation, in-class presentations).
-
FUNICIELLO FRANCESCA
( syllabus)
INTRODUCTION. GENERAL FOUNDATIONS. CRUST (OCEANIC AND CONTINENTAL), LITHOSPHERE (OCEANIC AND CONTINENTAL) AND MANTLE: OVERVIEW ON COMPOSITION, STRUCTURE, RHEOLOGY, THERMAL PROFILE. TECTONICS: HISTORICAL BACKGROUND. PLATE MARGINS. EXTENSIONAL TECTONICS: GEOMETRY AND KINEMATICS OF NORMAL FAULTS, ORIGIN OF RIFT SYSTEMS, RIFTING MODELS, AND EVOLUTION OF A RIFTING SYSTEM, SEDIMENTATION/TOPOGRAPHY AND MAGMATISM ASSOCIATED TO RIFTING, MID-OCEAN RIDGES, PASSIVE MARGINS. COMPRESSIVE TECTONICS: GEOMETRY, KINEMATICS AND DYNAMICS OF CONVERGENT AND COLLISIONAL MARGINS, OBLIQUE CONVERGENCE, ARCHITECTURE, KINEMATICS AND MECHANICS OF COLLISIONAL BELTS. STRIKE-SLIP TECTONICS: TRANSFORM AND STRIKE-SLIP FAULTS AND RELATED GEODYNAMICS, TRANSPRESSION AND TRANSTENSION, PULL-APART BASINS. HOT SPOT AND MANTLE PLUMES. HAZARD LINKED TO TECTONIC PROCESSES: DEFINITION OF RISK, EARTHQUAKES, MEGA-EARTHQUAKES, TSUNAMI, VOLCANOES, LAND-SLIDES. INTEGRATION: GEOMAPAPP, SEISMIC METHODS, ANALOG MODELING, NUMERICAL MODELING AS TOOLS TO STUDY TECTONIC PROCESSES.
( reference books)
- EARTH STRUCTURE: AN INTRODUCTION TO STRUCTURAL GEOLOGY AND TECTONICS (SECOND EDITION). B. A. VAN DER PLUIJM , S. MARSHAK (NORTON & COMPANY, 2004) - PLATE BOUNDARY ZONES. S. STEIN, J.T. FREYMUELLER, ED. AGU GEODYNAMIC SERIES, VOL. 30, 2002. - DYNAMIC EARTH, PLATES, PLUMES AND MANTLE CONVECTION, DAVIES, G.F., CAMBRIDGE UNIVERSITY PRESS, 1999. - GEODYNAMICS: SECOND EDITION, TURCOTTE, D. L. AND SCHUBERT, G., JOHN WILEY & SONS, NEW YORK, 2002. - GEOLOGIA STRUTTURALE. H. FOSSEN, ZANICHELLI 2020. - BIBLIO PROVIDED DURING THE COURSE
|
6
|
GEO/03
|
40
|
-
|
12
|
-
|
Elective activities
|
ITA |
20402348 -
INTRODUCTION TO SEDIMENTOLOGY
(objectives)
The course aims to provide students with the fundamental concepts of sedimentology through the study of sediments, of the environments in which they are formed and of the principles that govern the transport and sedimentation
-
CIPOLLARI PAOLA
( syllabus)
CONSTITUTION OF SEDIMENTS AND SEDIMENTARY ROCKS: • SEDIMENT AND SEDIMENTARY ROCK COMPONENTS • SEDIMENT TEXTURAL CHARACTERS • SEDIMENTARY ROCKS CLASSIFICATION • NOTES ON PARTICULAR TYPES OF SEDIMENTARY ROCKS OF ECONOMIC INTEREST (E. G. BIOGENIC ROCKS, EVAPORITES, ETC.) SILICICLASTIC MATERIAL TRANSPORT THROUGH FLUIDS: • FUNDAMENTALS ON NEWTONIAN MECHANICS IN UNIDIRECTIONAL FLOWS • TRACTIVE FLOWS • HYPERCONCENTRATED AND MASSIVE FLOWS (E.G. GRANULAR FLOWS, TURBIDITES) SEDIMENTARY STRUCTURES: • BEDDING AND LAMINATION • IRREGULAR STRATIFICATION • HYPERCONCENTRATED AND MASSIVE FLOW STRUCTURES • BEDDING PLANE MARKINGS • BIOGENIC STRUCTURES INTRODUCIION TO SEDIMENTARY ENVIRONMENTS • CONTINENTAL ENVIRONMENTS: FLUVIAL AND LACUSTRINE SYSTEMS • TRANSITION ENVIRONMENTS: DELTAIC AND COASTAL ENVIRONMENTS • MARINE ENVIRONMENTS: PLATFORM SYSTEMS, MARINE SLOPE-PLAIN SYSTEMS, OPEN MARINE SYSTEMS • EVAPORITIC ENVIRONMENTS • PRACTICAL IMPORTANCE OF SEDIMENT CHARACTERISTICS OF DIFFERENT ENVIRONMENTS
( reference books)
BOGGS S., Jr. (2012), Principles of Sedimentology and Stratigraphy. Pearson Education, Inc., Pearson Prentice Hall TUCKER M.E. (2011), Sedimentary Rocks in the Field: A Practical Guide, 4th Edition. Wiley
|
6
|
GEO/02
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
20402395 -
GEORESOURCES AND GEOMATERIALS
(objectives)
The aim of this course is to provide the students with an introduction to the ore deposits and their exploitation, including the related problems of environmental sustainability, and the use of geological materials in science, art and technology.
|
6
|
GEO/06
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
20402176 -
VERTEBRATE PALEONTOLOGY
(objectives)
Vertebrate Paleontology is a preminent discipline among geological sciences: no need to remind its fundamental contribution to other geological disciplines, and among them plate tectonics. This course provides basic concepts of vertebrate evolution and provides the student the chance to apply several theoretical concepts assimilated during the introductory course of paleontology. It will be highlighted the importance of fossils for age estimations, paleogeography and palaeoclimate/palaeoenvironmental reconstructions
-
Derived from
20402176 PALEONTOLOGIA DEI VERTEBRATI in Geologia e Tutela dell'Ambiente LM-74 ANGELONE CHIARA
( syllabus)
Introduction, chordates, basal vertebrates: 3h "Agnatha" and the origin of lower jaw: 3h Chondrychtyes and e osteichthyes: 3h Sarcopterygians and the origin of tetrapods: 3h Amphibia: 3h Anapsida: 3h Diapsida: 3h Dinosauria: 3h Pterosauria vs. Aves: 3h Sinapsida: 3h Mesozoic mammals-Metatheria: 3h Afrotheria and Xenartra: 3h Boreoeutheria: 3h Laurasiatheria: 3h Euarchontoglires: 3h Primates: 3h
( reference books)
The reference textbook is: Benton M.J. (2014) - Vertebrate Palaeontology. Blackwell Publishing
Additional references to be discussed during the classes will be selected among the most recent and/or controversial.
|
6
|
GEO/01
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410519 -
DIDACTIC OF PHYSICS
(objectives)
The course aims to provide the student with the necessary skills to practice effective teaching of Physics in Upper Secondary School with particular attention: a) knowledge of research literature on teaching in Physics, the Italian educational system and school regulations; b) to the design of culturally significant educational paths for the teaching of physics; c) the production of materials for the measurement and verification of learning through the exercise of formative assessment; d) the role of the "laboratory" to be understood as a working method that involves students in an active and participatory way, which encourages experimentation and planning.
|
6
|
FIS/08
|
56
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410402 -
TEACHING OF SCIENCES
(objectives)
Training the promotion, management and critical analysis of educational processes in experimental sciences, with particular reference to Biology, Chemistry and the Earth sciences. Improve technical and methodological skills related to the adoption and elaboration of educational strategies and teaching tools. Use the laboratory and field experience as a methodology for learning Biology, Chemistry and Earth sciences. Use multimedia tools and web resources as a teaching strategy for learning Biology, Chemistry and Earth sciences. Use teaching methodologies and technologies to study the relationship between science and society.
|
|
20410402-1 -
EARTH SCIENCE
(objectives)
Training the promotion, management and critical analysis of educational processes in experimental sciences, with particular reference to the Earth sciences. Improve technical and methodological skills related to the adoption and elaboration of educational strategies and teaching tools. Use the laboratory and field experience as a methodology for learning Earth sciences.Use multimedia tools and web resources as a teaching strategy for learning Earth sciences.Use teaching methodologies and technologies to study the relationship between science and society.
|
2
|
GEO/04
|
16
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410402-2 -
BIOLOGY
(objectives)
Training the promotion, management and critical analysis of educational processes in experimental sciences, with particular reference to Biology.Improve technical and methodological skills related to the adoption and elaboration of educational strategies and teaching tools.Use the laboratory and field experience as a methodology for learning Biology.Use multimedia tools and web resources as a teaching strategy for learning Biology.Use teaching methodologies and technologies to study the relationship between science and society.
|
1
|
BIO/02
|
8
|
-
|
-
|
-
|
Elective activities
|
1
|
BIO/05
|
8
|
-
|
-
|
-
|
Elective activities
|
|
ITA |
20410402-3 -
CHEMISTRY
(objectives)
Training the promotion, management and critical analysis of educational processes in experimental sciences, with particular reference to Biology, Chemistry and the Earth sciences. Improve technical and methodological skills related to the adoption and elaboration of educational strategies and teaching tools. Use the laboratory and field experience as a methodology for learning Biology, Chemistry and Earth sciences.Use multimedia tools and web resources as a teaching strategy for learning Biology, Chemistry and Earth sciences.Use teaching methodologies and technologies to study the relationship between science and society.
|
2
|
CHIM/03
|
16
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410384 -
ELEMENTS OF GEOLOGY I
(objectives)
The course aims to provide an overview of the planet Earth, introducing the basis for understanding the main geological aspects that characterize our planet. The course will also deal with the interactions between endogenous and exogenous processes in order to understand how these processes influence the shapes of the landscape. Moreover, the course aims to provide the tools to acquire knowledge about the Solar System and its planets, defining the planet Earth as an integrated system and highlighting its role within the Solar System. During the didactical laboratories and field excursions students will learn to understand the different aspects of Italian territory, with particular regard to its environmental value e fragility
-
Derived from
20410384 ELEMENTI DI GEOLOGIA I in Geologia e Tutela dell'Ambiente LM-74 CIFELLI FRANCESCA
( syllabus)
The materials of the Earth: minerals, the lithogenetic processes, the lithogenetic cycle, the magmatic rocks, the sedimentary rocks, the metamorphic rocks, the bedding and the deformation of the rocks. Volcanic phenomena: magma and volcanic activity, the main types of eruptions, shape of volcanic buildings, products of volcanic activity, the geographic distribution of volcanoes, volcanoes and man (the volcanic risk). Seismic phenomena: the theory of elastic rebound, the seismic cycle, types of seismic waves and their propagation and registration, the force of an earthquake (scales of intensity and magnitude), the geographic distribution of earthquakes, the seismic activity and the man (seismic risk) Plate tectonics: the internal structure of the Earth, the structure of the crust, the Earth's magnetic field, Earth’s internal heat, the convective mantle, from the hypothesis of the drift of the continents to the formulation of the theory of plate tectonics. The Earth as an integrated system: interaction between the different systems of the planet (biosphere, atmosphere, hydrosphere, lithosphere, cryosphere), the earth's atmosphere, climate and meteorological phenomena, renewable and non-renewable natural resources.
Field trip in Parco della Caffarella
( reference books)
Educational material distributed during the course
|
6
|
GEO/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410328 -
ELEMENTS OF GEOLOGY II
(objectives)
The course aims to provide an adequate overview of the scientific contents of Earth Sciences. The course deals with the modern aspects of Earth Sciences, framing geological phenomena in the framework of the most modern theories and illustrating the hazards and risks associated with natural phenomena such as, for example, seismic and volcanic phenomena, also referring to the geology of the Italian territory. The course also aims to provide the basis for understanding the rocks cycle and their rocks genetic processes through laboratory and field experiences. During the didactical laboratories and field excursions students will learn to understand the different aspects of Italian territory, with particular regard to its environmental value e fragility.
|
6
|
GEO/03
|
48
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410397 -
MATHEMATICS EDUCATION WORKSHOP
(objectives)
1. Mathematics software, with particular attention to their use in mathematics education in school teaching. 2. Analysis of the potential and criticality of the use of technological tools for teaching and learning maths.
-
Derived from
20410459 MC430 - LABORATORIO DI DIDATTICA DELLA MATEMATICA in Matematica LM-40 FALCOLINI CORRADO
( syllabus)
Teaching mathematics with the help of a computer: GeoGebra and Mathematica softwares. Commands for numerical and symbolic calculus, graphics visualization, parametric surfaces and curves with animations in changing parameters. Solving problems: triangle's properties in Euclidean and non-Euclidean geometry with examples, approximation of pi and other irrational numbers, solutions of equations and inequalities, systems of equations, defining and visualizing geometrical loci, function integral and derivatives, approximation of surface area.
( reference books)
List of problems given in class concerning visualization and solutions with the help of software Mathematica or GeoGebra.
|
6
|
MAT/04
|
56
|
-
|
-
|
-
|
Elective activities
|
ITA |
20410594 -
L’Agenda 2030 delle Nazioni Unite per lo sviluppo sostenibile - Le implicazioni per le Scienze della Vita e della Terra
|
|
-
Modulo di Base
|
3
|
|
20
|
-
|
-
|
-
|
Elective activities
|
ITA |
-
L’Agenda 2030 delle Nazioni Unite per lo sviluppo sostenibile - Le implicazioni per le Scienze della Vita e della Terra
|
3
|
GEO/03
|
8
|
24
|
-
|
-
|
Elective activities
|
ITA |
20410396 -
DIDACTIC OF MATHEMATICS
(objectives)
1. Critical analysis of the evolution of ideas and methodologies in mathematics teaching, with particular regard to the role of the teacher. 2. The mathematics curriculum in compulsory education and in the various addresses of secondary schools (high schools, technical institutes and professional institutes) in an international framework 3. Educational design and teaching methods of mathematics: programming and rhythm, principles and methods for activity building, class management. 4. Troubleshooting. Logic, intuition and history in the teaching of mathematics.
-
Derived from
20410456 MC420-DIDATTICA DELLA MATEMATICA in Matematica LM-40 MAGRONE PAOLA
( syllabus)
The course aims to introduce students to the teaching of mathematics in first and second grade secondary schools, through a historical-epistemological approach to the basic concepts of elementary mathematics (arithmetic, geometry, algebra, probability, functions). In particular: the teaching of mathematics and its evolution; numerical systems; Euclid's axioms and postulates; non-Euclidean and locally Euclidean geometries; geometric constructions with ruler and compass and mathematical machines; elements of history of infinitesimal calculus. Outline of national guidelines.
( reference books)
GIORGIO ISRAEL, ANA MILLÁN GASCA, Pensare in matematica, Zanichelli, 2012. ANA MILLÁN GASCA, All'inizio fu lo scriba, Mimesis, 2004 ENRICO GIUSTI, Analisi matematica 1, Bollati Boringhieri, 2002
|
6
|
MAT/04
|
56
|
-
|
-
|
-
|
Elective activities
|
ITA |
|