Physics of the hydrosphere and the cryosphere
A.A. 2025/2026
Obiettivi formativi
1. To introduce the physical laws governing flow in hydrosphere and cryosphere and transport in waters and soils.
2. To introduce the physical tools to analyze observations from monitoring networks in hydrosphere and cryosphere.
3. To introduce elements of the radiative balance of the Earth and the role of hydrosphere and cryosphere in the energy balance.
4. To introduce notions about geophysical measures related to hydrology.
2. To introduce the physical tools to analyze observations from monitoring networks in hydrosphere and cryosphere.
3. To introduce elements of the radiative balance of the Earth and the role of hydrosphere and cryosphere in the energy balance.
4. To introduce notions about geophysical measures related to hydrology.
Risultati apprendimento attesi
The students will acquire ability to:
1. read and understand scientific papers and technical reports dealing with the physical aspects of the dynamics of cryosphere and hydrosphere;
2. design flow and transport models (mass balance, energy balance, solute transport, etc.) in hydrosphere and cryosphere;
3. critically analyze the results of monitoring physical quantities in cryosphere and hydrosphere;
4. design and perform geophysical measurements.
1. read and understand scientific papers and technical reports dealing with the physical aspects of the dynamics of cryosphere and hydrosphere;
2. design flow and transport models (mass balance, energy balance, solute transport, etc.) in hydrosphere and cryosphere;
3. critically analyze the results of monitoring physical quantities in cryosphere and hydrosphere;
4. design and perform geophysical measurements.
Periodo: Primo semestre
Modalità di valutazione: Esame
Giudizio di valutazione: voto verbalizzato in trentesimi
Corso singolo
Questo insegnamento non può essere seguito come corso singolo. Puoi trovare gli insegnamenti disponibili consultando il catalogo corsi singoli.
Programma e organizzazione didattica
Edizione unica
Responsabile
Periodo
Primo semestre
Programma
Basic elements about the water cycle and the general characteristics of hydrosphere and cryosphere.
Physical properties of water in its various forms.
Equation of motion of surface waters, groundwater and polar ice caps. Geostrophic and hydrostatic approximations. Shallow ice approximation.
Energy balance and heat equation: conduction, advection, radiation, evapotranspiration.
Characteristics of oceanic circulation: thermohaline circulation Eckman layer; main oceanic currents; waves and tides.
Contaminant transport in hydrosphere: advection, molecular diffusion, turbulent and hydrodynamic dispersion.
General concepts on geophysical measurements. Hydrological and oceanographic measurements.
Physical properties of water in its various forms.
Equation of motion of surface waters, groundwater and polar ice caps. Geostrophic and hydrostatic approximations. Shallow ice approximation.
Energy balance and heat equation: conduction, advection, radiation, evapotranspiration.
Characteristics of oceanic circulation: thermohaline circulation Eckman layer; main oceanic currents; waves and tides.
Contaminant transport in hydrosphere: advection, molecular diffusion, turbulent and hydrodynamic dispersion.
General concepts on geophysical measurements. Hydrological and oceanographic measurements.
Prerequisiti
Good background in Physics and Mathematics. Intermediate computer skills and knowledge of some programming/scripting language.
Metodi didattici
The course consists of:
a) 4 cfu (32 hours) of frontal lessons to introduce the topics described in the syllabus;
b) 2 cfu (24 hours) of practical classes, where the students will deepens some of the topics presented during the lessons, by working in small groups on one of the following subjects: i) modeling of the physical processes introduced during the lessons; ii) collect and elaborate geophysical data-sets; iii) design of monitoring networks.
Attendance is strongly recommended.
a) 4 cfu (32 hours) of frontal lessons to introduce the topics described in the syllabus;
b) 2 cfu (24 hours) of practical classes, where the students will deepens some of the topics presented during the lessons, by working in small groups on one of the following subjects: i) modeling of the physical processes introduced during the lessons; ii) collect and elaborate geophysical data-sets; iii) design of monitoring networks.
Attendance is strongly recommended.
Materiale di riferimento
K. Cuffey & W.S.B. Paterson, 2010, The Physics of Glaciers - 4th Edition, Academic Press.
J. Bear, 1979. Hydraulics of groundwater, McGraw-Hill/Dover.
J. Pedlosky, 1987. Geophysical fluid dynamics 2nd edition, Springer.
G. de Marsily, 1986. Quantitative Hydrogeology - Groundwater hydrology for engineers, Academic Press.
G.L. Pickard & A.J. Emery, 1990. Descriptive physical oceanography, An introduction - 5th (SI) Enlarged Edition, Butterworth-Heynemann.
J. Bear, 1979. Hydraulics of groundwater, McGraw-Hill/Dover.
J. Pedlosky, 1987. Geophysical fluid dynamics 2nd edition, Springer.
G. de Marsily, 1986. Quantitative Hydrogeology - Groundwater hydrology for engineers, Academic Press.
G.L. Pickard & A.J. Emery, 1990. Descriptive physical oceanography, An introduction - 5th (SI) Enlarged Edition, Butterworth-Heynemann.
Modalità di verifica dell’apprendimento e criteri di valutazione
Expected learning outcomes will be verified through a written exam, the evaluation of two written documents and an oral exam. More in detail:
a) Students will sit for a written exam, during which they will be asked to answer multiple-choice questions.
b) Students will produce a technical report of their activities during the practical classes. In particular, they will be asked to solve one or more exercises and to discuss the methods applied for the solution. The technical report can be prepared by a single student or as a group report. Non-attending students are required to perform a modeling/data processing activity previously agreed with the teacher.
c) In addition to the aforementioned technical report, each student will produce a document containing a brief literature review, where one of the topics covered during the lessons will be deepened by reviewing one or more selected scientific papers. Details about the selection of the paper and the preparation of the report can be found in the moodle site of the course unit.
d) During the oral exam, the student will:
i. present the results and the content of the technical report and of the literature review mentioned in the previous points;
ii. be questioned about the topics discussed during the lessons.
The final assessment will be based on the following criteria: results of the written exam; ability to present the topics in an appropriate and organic manner, also by using the proper specialist lexicon; strict application of the scientific method; critical reasoning; good command of the topics contained in the presented technical report and literature review.
The final score will be expressed in thirtieth.
a) Students will sit for a written exam, during which they will be asked to answer multiple-choice questions.
b) Students will produce a technical report of their activities during the practical classes. In particular, they will be asked to solve one or more exercises and to discuss the methods applied for the solution. The technical report can be prepared by a single student or as a group report. Non-attending students are required to perform a modeling/data processing activity previously agreed with the teacher.
c) In addition to the aforementioned technical report, each student will produce a document containing a brief literature review, where one of the topics covered during the lessons will be deepened by reviewing one or more selected scientific papers. Details about the selection of the paper and the preparation of the report can be found in the moodle site of the course unit.
d) During the oral exam, the student will:
i. present the results and the content of the technical report and of the literature review mentioned in the previous points;
ii. be questioned about the topics discussed during the lessons.
The final assessment will be based on the following criteria: results of the written exam; ability to present the topics in an appropriate and organic manner, also by using the proper specialist lexicon; strict application of the scientific method; critical reasoning; good command of the topics contained in the presented technical report and literature review.
The final score will be expressed in thirtieth.
GEO/12 - OCEANOGRAFIA E FISICA DELL'ATMOSFERA - CFU: 6
Esercitazioni pratiche con elementi di teoria: 24 ore
Lezioni: 32 ore
Lezioni: 32 ore
Docente:
Giudici Mauro
Turni:
Turno
Docente:
Giudici MauroDocente/i
Ricevimento:
Qualunque ora, previo appuntamento telefonico o per posta elettronica
via Botticelli 23