Teaching

Academic Year 2024-2025

  1. Fundamentals of Uncertainty Quantification in Computational Science and Engineering (AM 238) (Fall Quarter)
  2. Applied Dynamical Systems (AM224) (Spring Quarter)

 

Academic Year 2023-2024

  1. Nonlinear Dynamical Systems (AM 114/214) (Fall Quarter)
  2. Numerical methods for the solution of differential equations (AMS 213B) (Spring Quarter)

 

Academic Year 2022-2023

  1. Fundamentals of Uncertainty Quantification in Computational Science and Engineering (AM 238) (Fall Quarter)
  2. Mathematical Methods for Engineers 1 (AM 10) (Spring Quarter)

 

Academic Year 2021-2022

  1. Nonlinear Dynamical Systems (AM 114/214) (Fall Quarter)
  2. Mathematical Methods for Engineers 1 (AM 10) (Fall Quarter)
  3. Numerical methods for the solution of differential equations (AMS 213B) (Spring Quarter)

 

Academic Year 2019-2020

  1. Nonlinear Dynamical Systems (AM 114/214) (Fall Quarter)
  2. Mathematical Methods for Engineers 1 (AM 10) (Fall Quarter)

 

Academic Year 2018-2019

  1. Nonlinear Dynamical Systems (AM 114/214) (Fall Quarter)
  2. Computational methods and applications (AM 147) (Winter Quarter)
  3. Fundamentals of Uncertainty Quantification in Computational Science and Engineering (AM 238) (Winter Quarter)

 

Academic Year 2017-2018

  1. Nonlinear Dynamical Systems (AMS 114/214) (Fall Quarter)
  2. Computational methods and applications (AMS 147) (Winter Quarter)
  3. Numerical methods for the solution of differential equations (AMS 213B) (Spring Quarter)

 

Academic Year 2016-2017

  1. Fundamentals of Uncertainty Quantification in Computational Science and Engineering (AMS 238) (Fall Quarter)
  2. Computational methods and applications (AMS 147) (Winter Quarter)
  3. Nonlinear Dynamical Systems (AMS 114/214) (Spring Quarter)

 

Academic Year 2015-2016

  1. Mathematical Methods for Engineers 1 (AMS 10) (Spring Quarter)
  2. Nonlinear Dynamical Systems (AMS114/214) (Winter Quarter)

 

Academic Years 2010-2015

  1. AY 2014-2015, Introduction to Computing Science (APMA 0160), Brown University.
  2. AY 2012-2013, Introduction to Computing Science (APMA 0160), Brown University.
  3. AY 2010-2012, Lecturer for Numerical Solution of PDEs II (APMA 2560), Brown University.

 

Academic Years 2002-2009

  1. AY 2002-2009, Fisica Tecnica (Applied Thermophysics), University of Bologna.
  2. AY 2006-2007, Termofisica delle Costruzioni L (Thermophysics of Buildings), University of Bologna.
  3. AY 2006-2007, Fisica Tecnica LS (Applied Thermophysics), University of Bologna.
  4. AY 2005-2006, Termofluidodinamica applicata L (Applied Thermofluid Dynamics), University of Bologna.

 

Lecture Notes

 

  1. Lecture notes for AM213B - Numerical methods for differential equations, UC Santa Cruz (Link
  2. Lecture notes for AM238 - Fundamentals of uncertainty quantification, UC Santa Cruz (PDF)
  3. Lecture notes for AM10 - Mathematical methods for engineers I, UC Santa Cruz  (Link)
  4. Lecture notes for AM114/214 - Nonlinear dynamical systems, UC Santa Cruz (PDF
  5. Lecture notes for AM 147 - Computational methods and applications, UC Santa Cruz (PDF)
  6. Lecture notes for APMA0160 - Introduction to Scientific Computing, Division of Applied Mathematics, Brown University, 2012-2015.
  7. Lecture notes for APMA2420 - Fluid Dynamics II, Division of Applied Mathematics, Brown University, 2014-2015.
  8. Lecture notes on fluid dynamics, thermodynamics and heat transfer, pp. 1-241 (in Italian), University of Bologna, 2008  (PDF)
  9. D. Venturi, Exercises of Applied Thermophysics, University of Bologna, 2002-2010.