Medical Physics

- 1D and 2D kinematics of material point.
- Fundamentals of dynamics: principles of dynamics, force, work and energy, weight, normal force, elastic force, friction force, kinetic energy theorem, conservative force fields, potential energy, conservation of mechanical energy, conservation of quantity of motion, conservation of momentum.
- Thermology and thermodynamics: thermal expansion, temperature and heat, gas law and absolute temperature, elements of kinetic theory of gases, gas mixtures, solubility of gases in liquids, breathing at high pressure; specific heat, phase transitions and latent heat, mechanisms of heat propagation, thermoregulation of the human body, principles of thermodynamics.
- Mechanics of rigid body: center of mass, torque, rotational and translational equilibrium, levers in the human body; stress and strain (normal, shear, bending and twisting), Hooke laws and elastic moduli; mechanical properties of bones and soft tissues.
- Fluid statics and dynamics: pressure, Stevin, Pascal and Archimedes' laws, flow rate in a pipe, idela fluids and Bernoulli's theorem, real fluids and viscosity, laminar flow and Poiseuille's theorem, hydraulic resistance, turbulent regime and Reynolds number, notes on heart work and power; surface tension, contact angle, capillarity, Laplace's law.
- Electric and magnetic phenomena: electric charge, Coulomb's force, electric field and potential, flat capacitor, conducting and dielectric materials, electric current and resistance, Joule effect, impedance and RC circuits, defibrillator, membrane potential; magnetic field, solenoid, coil in magnetic field, voltmeter, EEG.
- Waves: wavelength and frequency, wave equation, electromagnetic waves spectrum, interference, stationary waves; acoustic waves, Doppler effect, sound and hearing, intensity, echography; propagation of electromagnetic waves, absorbance and quantification of DNA and protein concentration, fluorescence, light scattering, flow cytometry.
- Optics: reflection and refraction, refractive index, dispersion, lenses and image formation, diffraction and resolution limit, eye, accommodation and defects, optical microscope.
- Nuclear phenomena and radiation-matter interactions: binding energy and nuclear stability, radiation types, radioactivity and decay time, elements of dosimetry and biological effects of radiations, X ray production and formation of radiological images; nuclear magnetic moment and magnetic resonance imaging.