Basis of Phisics and Mathematics
A.Y. 2024/2025
Learning objectives
The scientific method
- fundamental math for understanding physical laws
- fundamental physics underlying the structure and functionality of the organism
- the physical principles of the main diagnostic methods.
- fundamental math for understanding physical laws
- fundamental physics underlying the structure and functionality of the organism
- the physical principles of the main diagnostic methods.
Expected learning outcomes
Students:
- know the main mathematical quantities of relevance for understanding physical laws
- know the main physical quantities of relevance for medical physics and for understanding the structure and functionality of the organism
- learn to apply such quantities to problems
- learn the physical and technological bases of diagnostics, with particular attention to imaging diagnostics.
- know the main mathematical quantities of relevance for understanding physical laws
- know the main physical quantities of relevance for medical physics and for understanding the structure and functionality of the organism
- learn to apply such quantities to problems
- learn the physical and technological bases of diagnostics, with particular attention to imaging diagnostics.
Lesson period: First semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course can be attended as a single course.
Course syllabus and organization
Single session
Responsible
Prerequisites for admission
Be familiar with the mathematical notions normally provided during the last year of high school. In particular it is necessary to know:
- the algebraic calculation (operations between monomials and polynomials, powers of polynomials, decomposition into prime factors, simplification of algebraic fractions, etc.);
- trigonometry;
This course does not include lessons dedicated to the mathematics topics listed above. Each student must take care to fill any gaps with personal study.
- the algebraic calculation (operations between monomials and polynomials, powers of polynomials, decomposition into prime factors, simplification of algebraic fractions, etc.);
- trigonometry;
This course does not include lessons dedicated to the mathematics topics listed above. Each student must take care to fill any gaps with personal study.
Assessment methods and Criteria
The learning assessment includes a written test and an oral test.
The written test is based on exercises. In the text the candidate has to choise the correct answer and to write the whole solution of each problem. The overcoming of the written text allows you to enter the next oral exam. The written test can include all the exercises of the type carried out during the lectures. During the written test the use of a pocket calculator is allowed but it is not allowed to consult notes or books.
The oral exam must be taken in the same exam session in which the written test was taken and passed.
The oral exam globally evaluates the competences acquired by the student and always includes a series of questions on each macro-area of the course contents.
The final grade will be in thirtieths.
The written test is based on exercises. In the text the candidate has to choise the correct answer and to write the whole solution of each problem. The overcoming of the written text allows you to enter the next oral exam. The written test can include all the exercises of the type carried out during the lectures. During the written test the use of a pocket calculator is allowed but it is not allowed to consult notes or books.
The oral exam must be taken in the same exam session in which the written test was taken and passed.
The oral exam globally evaluates the competences acquired by the student and always includes a series of questions on each macro-area of the course contents.
The final grade will be in thirtieths.
Applied physics for radiological sciences
Course syllabus
The laws of motion as an effect of the applied forces.
Balance of an extended body subjected to both forces and constraints.
Work of a strength and energy.
Energy conservation.
Statics and fluid dynamics.
Laws of electrostatics.
Concept of field and electric potential.
Capacity concept.
Electric current and Ohm's laws.
General information on magnetic fields and electromagnetic waves.
Electromagnetic waves.
Balance of an extended body subjected to both forces and constraints.
Work of a strength and energy.
Energy conservation.
Statics and fluid dynamics.
Laws of electrostatics.
Concept of field and electric potential.
Capacity concept.
Electric current and Ohm's laws.
General information on magnetic fields and electromagnetic waves.
Electromagnetic waves.
Teaching methods
The course is divided into moments: lectures, exercises, cooperative learning in small groups. The lectures slides are uploaded to the Ariel website.
Teaching Resources
GIANCOLI- Fisica con fisica moderna - CEA
J.W. KANE, M.M. STERNHEIM- Fisica Biomedica- EMSI
D. HALLIDAY, R. RESNICK, J. WALKER- Fondamenti di fisica - CEA
D. SCANNICCHIO- Fisica biomedica- EdiSES
D. SCANNICCHIO- Elementi di Fisica biomedica- EdiSES
F. BORSA, A. LASCIALFARI- Principi di fisica - Edises
J.W. KANE, M.M. STERNHEIM- Fisica Biomedica- EMSI
D. HALLIDAY, R. RESNICK, J. WALKER- Fondamenti di fisica - CEA
D. SCANNICCHIO- Fisica biomedica- EdiSES
D. SCANNICCHIO- Elementi di Fisica biomedica- EdiSES
F. BORSA, A. LASCIALFARI- Principi di fisica - Edises
Mathematical analysis
Course syllabus
Exponentials and logarithms.
Equations.
Review of trigonometry.
Function concept.
Trigonometric, linear, exponential, logarithmic functions; graphics.
Concept of limit of a function.
Derivatives
Integrals
Equations.
Review of trigonometry.
Function concept.
Trigonometric, linear, exponential, logarithmic functions; graphics.
Concept of limit of a function.
Derivatives
Integrals
Teaching methods
The course is divided into moments: lectures, exercises, cooperative learning in small groups. The lectures slides are uploaded to the Ariel website.
Teaching Resources
BORSA, LASCIALFARI: Principi di Fisica EdiSES: Appendice A
KANE: Fisica applicata - E.M.S.I., Roma: Appendice B
SCANNICCHIO: Elementi di Fisica Biomedica - EdiSES: Capitolo 1
GIANCOLI: Fisica. Principi e Applicazioni - CEA: Appendice
KANE: Fisica applicata - E.M.S.I., Roma: Appendice B
SCANNICCHIO: Elementi di Fisica Biomedica - EdiSES: Capitolo 1
GIANCOLI: Fisica. Principi e Applicazioni - CEA: Appendice
Applied physics for radiological sciences
FIS/07 - APPLIED PHYSICS - University credits: 3
Lessons: 30 hours
Professor:
Ricci Caterina
Mathematical analysis
MAT/05 - MATHEMATICAL ANALYSIS - University credits: 2
Lessons: 20 hours
Professor:
Ricci Caterina
Educational website(s)
Professor(s)