FISICA STATISTICA E INFORMATICA - canale 2

Academic Year 2017/2018 - 1° Year
Teaching Staff Credit Value: 6
Scientific field
  • FIS/07 - Applied physics
  • MED/01 - Medical statistics
  • INF/01 - Informatics
Taught classes: 42 hours
Term / Semester:
ENGLISH VERSION

Learning Objectives

  • medical physics

    At the end of the course, the student will learn the general principles underlying the understanding of physical phenomena and the laws that regulate them, with particular regard to the physical mechanisms that in human physiology affect the production and transport of electrical signals, blood circulation, energy production and transport.

  • medical statistics

    The course objectives are:
    1) Understand the basic concepts and methods of Medical Statistics for students to analyze data observed in the field of health phenomena. The study deals with the theoretical aspect and the practical application of these methods.
    2) Train the student's ability to collect, process, interpret, and evaluate quantitative and qualitative data.
    3) Develop the student's ability to communicate with others, with technical language skills, information and ratings related to data distribution related to health phenomena.
    4) To increase the student's ability to independently study medical statistics.

  • Computer Technology

    The objectives of this module are focused on learning and the conception of the logic that regulates basic computing, elaboration data, structure, classification and typology of networks.


Detailed Course Content

  • medical physics

    Physical quantities and their measurement
    Scalar and vector quantities, International System and CGS System
    Elements of Mechanics
    Kinematics: trajectory, speed and acceleration. Straight and uniformly accelerated rectilinear motion. Uniform circular motion.
    Dynamics: The forces. The principles of dynamics. Mass and weight. Gravitational force. The centripetal force. Work and energy. Mechanical power. Kinetic energy and potential energy. Conservation of mechanical energy.
    Fluid mechanics
    Pressure. Pascal's principle. Hydrostatic pressure. Stevino's law. Measurement of atmospheric pressure. Principle of Archimedes.
    Dynamics of the ideal fluids: flow rate, continuity principle, Bernoulli's theorem.
    Dynamics of viscous fluids: laminar motion and hydrodynamic resistance of a duct. Viscosity of the blood. Turbulent motion and critical speed. Measurement of arterial pressure.
    Plasma composition. Diffusion, filtration and osmosis through membranes. Osmotic equilibrium in the blood: isotonic solutions, flows through the capillaries.
    Gas mixtures: partial pressures. Solubility of a gas in a liquid: Henry's law. Gaseous exchanges in the alveoli and in the capillaries.
    Electromagnetism
    Electric charge. Strength of Coulomb. Electric field. Electrostatic potential. Electrostatic energy. Capacitors. Electric current. Laws of Ohm. Magnetic field. Electromagnetic and mechanical waves. Wavelength and frequency. Electromagnetic spectrum. X and gamma radiation.
    Overview of thermodynamics
    Temperature and heat. Temperature measurement. Internal energy. Specific heat. Changes in state and latent heat. Metabolism.

  • medical statistics

    Background: variables, constants, measurement scales, summations, products, percentages, ratios, combinatorial analysis. Collecting and organizing data. Indices of central tendency. Indices of dispersion. Graphical representation of data. Probability and probability distributions. Sampling and statistical inference. Comparison of samples and analysis of the dependence. Rates and proportions. Epidemiological statistics.

  • Computer Technology

    • Information processing systems;
    • Hardware, software and their stratification;
    • Operating Systems: fundamental functions and their evolutions;
    • Bits, Bytes and numbers connected to them;
    • Database;
    • Classification, Type and Network Levels;
    • E-mail & Protocol;


Textbook Information

  • medical physics
    1. D. Scannicchio, E. Giroletti, Elementi di Fisica Biomedica, EdiSES
    2. F. Borsa, A. Lascialfari, Principi di Fisica per indirizzo biomedico e farmaceutico, EdiSES
  • medical statistics

    P. B. Lantieri, D. Risso, G. Ravera - Elementi di Statistica Medica - McGraw-Hill, 2007

  • Computer Technology

    Teaching Handouts