APPLIED PHYSICS
cod. 1009890

Academic year 2024/25
1° year of course - First semester
Professors
Academic discipline
Fisica applicata (a beni culturali, ambientali, biologia e medicina) (FIS/07)
Field
"discipline generali per la formazione dell'odontoiatra"
Type of training activity
Basic
60 hours
of face-to-face activities
6 credits
hub: -
course unit
in ITALIAN

Integrated course unit module: CHEMISTRY AND PHYSICS

Learning objectives

The Applied Physics course has been designed to convey knowledge and understanding of basic physics principles, providing an introductory basis for other major degree fields including Chemistry, Biology, Physiology, Biochemistry, etc., that rely on the physical phenomenology on make frequent use of it.
The course will also provide the conceptual basis for understanding a number of major technologies that with increasing frequency are used in medicine, such as: centrifuges, endoscopes, microscopes, transducers for
ultrasound equipment, laser systems, radiology equipment and NMR, radiation detectors, etc. In this sense, the module also aims to develop the students' attitude towards independent study and continuing education on the application of physical techniques to diagnosis and therapy in medicine.

Prerequisites

No pre-requirement

Course unit content

The Applied Physics course will address the most important aspects of basic physics, from the definition of the main physical quantities and systems of measure up to the more complex contents at the basis of diagnostic imaging and radiation therapy.
The course will cover the fundamental principles of mechanics, fluid dynamics, electromagnetism, thermodynamics, waves and optics.
Applications and consequences on the physiology of human body and in medicine will be stressed. In particular, deeper insights will be provided into biomechanics, blood circulation, the use of radiations in diagnosis and therapy.

Full programme

Physical quantitites and their measurement: Measurement of a physical quantity - Dimensions and units – Errors - Mean value - Standard deviation and sampling approximation -Vector quantities.
- Fundamentals of dynamics: Principles of dynamics - Energy, work and power - Weight force - Theorem of the kinetic energy - Conservative force fields - Potential energy - Conservation of mechanical energy - Center of mass and its properties - Conservation of the quantity of motion - Moment of force - Overview of rigid body motion - Levers and the human body – Balance - Elastic phenomena, Hooke’s law and elasticity modules - Flexure and torsion - Elasticity of blood vessels and bones.
- Waves and acoustics: Wave motion, wave equation and characteristic parameters - Interference and beats - Stationary waves - Resonance - Diffraction and Huygens principle - Sound and its characteristics - Intensity, sensation, Weber-Fechner law - Doppler effect - Ultrasound and its application in the biomedical field
- Hydrostatics and hydrodynamics: Pressure, Pascal and Archimedes - Atmospheric pressure and Torricelli’s barometer - Arterial pressure and its measurement - Surface tension and Laplace’s formula - Capillarity and Jurin’s law - Gaseous embolism - Pipe flow capacity - Ideal liquid and Bernouilli’s theorem -Implications for blood flow - Real liquids and viscosity - Laminar motion and Poiseuille’s theorem - Hydraulic resistance - Stokes’ equation and sedimentation speed - Turbulent regime and Reynolds number - Overview of cardiac work.
- Thermology and thermodynamics: Thermal dilation -Temperature and heat - Laws of gas and absolute temperature - Equation of state of ideal gases and approximation for real gases - Overview of the kinetic theory of gases - Specific heats –Change of state and latent heat - Heat propagation mechanisms -First and second principle of thermodynamics -Thermal machines and efficiency - Entropy and disorder.
- Optics: Reflection and refraction - Total reflection and optical fiber - Optical system, focus and dioptric power - Spherical diopter - Thin lenses, mirrors and image construction - Compound microscope - Resolution strength - The eye as a dioptric system - Principal ametropies of the eye and their correction using lenses - Wave theory of light - Laser light.
- Electricity, magnetism and electrical current: Electrical charges and Coulomb’s law - Electrical field - Work of the electrical field and electrostatic potential - Dipolar field - Overview of muscle fiber and electrocardiogram - Gauss’s theorem and its applications - Faraday cage - Electrical capacity and capacitor - Current intensity - Overview of the electronic structure of insulators, metallic conductors and semi-conductors - Ohm’s law - Series and parallel resistors – Electromotive force - Thermal effect of current - Electrical conduction in liquids - Passing of current in the human body -Thermoionic and photoelectric effects - Magnetic field and its action on current and magnets - Biot-Savart law - Ampere’s theorem of circulation - Solenoid - Electromagnetic induction - Self-induction – Alternating voltage and current - Impedance -Electromagnetic waves.
- Radiation: Structure of the atom and nucleus - Quantum numbers, electronic orbitals and transitions - Unstable isotopes and alpha, beta, gamma radiation - Law of radioactive decay and half-life - Radiation detection - Biomedical applications of radioisotopes - X-rays (production, properties and absorption mechanisms in the matter) - Radiological image - Overview of computerised tomography (CT) and radiofrequency (NMR) imaging techniques- Overview of radiation safety.

Bibliography

- Lecture notes
- A. Giambattista, B. McCarthy Richardson, R. Richardson "Fisica Generale. Principi e Applicazioni" Ed. McGraw-Hill
- J.S. Walker : Fondamenti di Fisica - Ed. Pearson
- J. Walker : Halliday- Resnick, Fondamenti di Fisica – Ed. Casa editrice Ambrosiana
- D. Scannicchio : Fisica Biomedica - Ed. Edises
- Bersani, Bettati, Biagi, Capozzi, Feroci, Lepore, Mita, Ortalli, Roberti, Viglino, Vitturi: Fisica biomedica, Ed. Piccin Nuova Libraria (Padova)

Teaching methods

Lectures will be held on-site. Supporting material will be available on the specific, student-reserved platform (Elly) and will include slide presentations, audio-video aids or video-recording of the lectures.

Assessment methods and criteria

The achievement of the course aims is proofed by a written examination. Using open-ended questions and the solution of problems about the contents of the course it will be determined whether the student has achieved the goal of knowledge and understanding of content about specific biomedical applications. 

Consultation of the didactic material will be allowed.

Students with disabilities, SLD, BSE must first contact Centro Accoglienza ed Inclusione (CAI) (https://cai.unipr.it/) for support.

Other information

2030 agenda goals for sustainable development

goal code: 1; 2; 4

Contacts

Toll-free number

800 904 084

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