Biophysics
A.Y. 2025/2026
Learning objectives
The aim of the course is to provide an overview of cellular biophysics by illustrating how physical principles underlying mechanics,
thermodynamics, hydrodynamics and kinetics influence cell behaviour.
thermodynamics, hydrodynamics and kinetics influence cell behaviour.
Expected learning outcomes
The student at the end of the course will have acquired the following skills:
1) He/she will know the basics of the functioning and structure of a cell.
2) He/she will know the genetic code and its function.
3) He/she will be able to provide quantitative estimates for objects and processes relevant to the cell.
4) He/she will know how to apply elasticity theory methods to the study of biological filaments and membranes.
5) He/she will be able to interpret simple cellular processes through the use of statistical mechanics (e.g.: opening of ion channels,
ligand receptor kinetics, variation of protein conformation).
6) He/she will know the basic models for the statistical study of biological filaments.
7) He/she will know how to apply hydrodynamics in the cellular context.
8) He/she will be familiar with some dynamic and kinetic processes relevant to cellular functioning, such as polymerization, diffusion
and molecular transport.
1) He/she will know the basics of the functioning and structure of a cell.
2) He/she will know the genetic code and its function.
3) He/she will be able to provide quantitative estimates for objects and processes relevant to the cell.
4) He/she will know how to apply elasticity theory methods to the study of biological filaments and membranes.
5) He/she will be able to interpret simple cellular processes through the use of statistical mechanics (e.g.: opening of ion channels,
ligand receptor kinetics, variation of protein conformation).
6) He/she will know the basic models for the statistical study of biological filaments.
7) He/she will know how to apply hydrodynamics in the cellular context.
8) He/she will be familiar with some dynamic and kinetic processes relevant to cellular functioning, such as polymerization, diffusion
and molecular transport.
Lesson period: First semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
Single session
Responsible
Lesson period
First semester
FIS/03 - PHYSICS OF MATTER - University credits: 3
FIS/07 - APPLIED PHYSICS - University credits: 3
FIS/07 - APPLIED PHYSICS - University credits: 3
Lessons: 42 hours
Professor:
Tiana Guido
Professor(s)