Curriculum
Fruizione: 20401812 LABORATORIO DI FISICA TERRESTRE E DELL'AMBIENTE in Fisica L-30 N0 LAURO SEBASTIAN EMANUEL
Programme
1. Introduction to the Course, Earth Physics and the Environment2. Introduction to Matlab, matrices and vectors, functions
3. Recall to Fourier series and transform. Transfer function, causality, dispersion.
4. Matlab Exercise, Pulse Response
5. Sampling theorem, aliasing, analytical signal, signal energy
6. Matlab Exercise, Fourier Transform, FFT
7. Time series
8. Matlab Exercise, Least Squares problem and Data fitting
9. Introduction to Climate Change
10. Exercise on a time series (CO2 concentration in the atmosphere)
11. Earthquakes and propagation of waves
12. Exercise on a time series (CO2 concentration in the atmosphere)
13. Maxwell equations, constitutive relations
14. Exercise on a time series (CO2 concentration in the atmosphere)
15. Low frequency and high frequency electromagnetic measurements
16. Exercise on Earthquake location
17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability
18. Exercise on Earthquake location
19. Hydrodynamic dispersion equation
20. Exercise on the diffusion of a pollutant
Core Documentation
D. C. Champeney, Fourier Transform and their applications, Academic Press.A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.
Type of delivery of the course
Frontal lectures at the blackboard and with slides projection, intercalated with numerical exercises in MATLAB environment and laboratory experiences.Type of evaluation
The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.Fruizione: 20401812 LABORATORIO DI FISICA TERRESTRE E DELL'AMBIENTE in Fisica L-30 N0 LAURO SEBASTIAN EMANUEL
Programme
1. Introduction to the Course, Earth Physics and the Environment2. Introduction to Matlab, matrices and vectors, functions
3. Recall to Fourier series and transform. Transfer function, causality, dispersion.
4. Matlab Exercise, Pulse Response
5. Sampling theorem, aliasing, analytical signal, signal energy
6. Matlab Exercise, Fourier Transform, FFT
7. Time series
8. Matlab Exercise, Least Squares problem and Data fitting
9. Introduction to Climate Change
10. Exercise on a time series (CO2 concentration in the atmosphere)
11. Earthquakes and propagation of waves
12. Exercise on a time series (CO2 concentration in the atmosphere)
13. Maxwell equations, constitutive relations
14. Exercise on a time series (CO2 concentration in the atmosphere)
15. Low frequency and high frequency electromagnetic measurements
16. Exercise on Earthquake location
17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability
18. Exercise on Earthquake location
19. Hydrodynamic dispersion equation
20. Exercise on the diffusion of a pollutant
Core Documentation
D. C. Champeney, Fourier Transform and their applications, Academic Press.A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.
Type of delivery of the course
Frontal lectures at the blackboard and with slides projection, intercalated with numerical exercises in MATLAB environment and laboratory experiences.Type of evaluation
The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.Fruizione: 20401812 LABORATORIO DI FISICA TERRESTRE E DELL'AMBIENTE in Fisica L-30 N0 LAURO SEBASTIAN EMANUEL
Programme
1. Introduction to the Course, Earth Physics and the Environment2. Introduction to Matlab, matrices and vectors, functions
3. Recall to Fourier series and transform. Transfer function, causality, dispersion.
4. Matlab Exercise, Pulse Response
5. Sampling theorem, aliasing, analytical signal, signal energy
6. Matlab Exercise, Fourier Transform, FFT
7. Time series
8. Matlab Exercise, Least Squares problem and Data fitting
9. Introduction to Climate Change
10. Exercise on a time series (CO2 concentration in the atmosphere)
11. Earthquakes and propagation of waves
12. Exercise on a time series (CO2 concentration in the atmosphere)
13. Maxwell equations, constitutive relations
14. Exercise on a time series (CO2 concentration in the atmosphere)
15. Low frequency and high frequency electromagnetic measurements
16. Exercise on Earthquake location
17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability
18. Exercise on Earthquake location
19. Hydrodynamic dispersion equation
20. Exercise on the diffusion of a pollutant
Core Documentation
D. C. Champeney, Fourier Transform and their applications, Academic Press.A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.
Type of delivery of the course
Frontal lectures at the blackboard and with slides projection, intercalated with numerical exercises in MATLAB environment and laboratory experiences.Type of evaluation
The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.Fruizione: 20401812 LABORATORIO DI FISICA TERRESTRE E DELL'AMBIENTE in Fisica L-30 N0 LAURO SEBASTIAN EMANUEL
Programme
1. Introduction to the Course, Earth Physics and the Environment2. Introduction to Matlab, matrices and vectors, functions
3. Recall to Fourier series and transform. Transfer function, causality, dispersion.
4. Matlab Exercise, Pulse Response
5. Sampling theorem, aliasing, analytical signal, signal energy
6. Matlab Exercise, Fourier Transform, FFT
7. Time series
8. Matlab Exercise, Least Squares problem and Data fitting
9. Introduction to Climate Change
10. Exercise on a time series (CO2 concentration in the atmosphere)
11. Earthquakes and propagation of waves
12. Exercise on a time series (CO2 concentration in the atmosphere)
13. Maxwell equations, constitutive relations
14. Exercise on a time series (CO2 concentration in the atmosphere)
15. Low frequency and high frequency electromagnetic measurements
16. Exercise on Earthquake location
17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability
18. Exercise on Earthquake location
19. Hydrodynamic dispersion equation
20. Exercise on the diffusion of a pollutant
Core Documentation
D. C. Champeney, Fourier Transform and their applications, Academic Press.A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.
Type of delivery of the course
Frontal lectures at the blackboard and with slides projection, intercalated with numerical exercises in MATLAB environment and laboratory experiences.Type of evaluation
The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.