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Fluid mechanics in biological systems |
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01 Introduction |
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02 The cardiovascular system and continuity equation |
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03 Mechanics and Dynamics principles |
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04 Laminar and irregular flows |
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05 Formal proof of the Poiseulles formula |
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06 Energy and potential energy |
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07 Bernoulli theorem and applications |
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08 Ducts mechanical resistance |
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09 Hydrostatic pressure and consequences |
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10 The heart cycle and heart power |
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11 Blood viscosity |
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12 Liquid surphace tension |
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13 Ducts wall distensibility |
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14 Effects of ducts distensibility |
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15 Beating and consequences |
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16 Conclusion |
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17 Sedimentation and centrifugation |
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18 Preparation and analytic centrifuge |
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Biomechanics |
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19 Balance conditions in solid bodies |
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20 Levers and applications to human joints |
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21 Joints balance |
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22 Deformable bodies |
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Thermodynamics |
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23 Heat, temperature and calorimetry |
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24 Ideal gas and real gas |
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25 Themodynamics principles |
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26 Free energy and biological applications |
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27 Heat transmission |
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Membrane Physics |
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28 Membranes and transport through membranes |
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29 Diffusion |
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30 Filtration |
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31 Gas-liquid balance |
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32 Osmosis |
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33 Osmotic balances |
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Electric phenomena |
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34 Electrostatics |
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35 Electric dipole and electric capacitor |
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36 Electric current and Ohms laws |
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37 Capacitor charging and discharging |
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38 Electrochemical solutions |
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Electrochemical equilibrium |
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39 Electrochemical equilibrium |
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40 Applications to capillaries membrane |
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41 Applications to cells membranes |
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42 Sodium-potassium pump |
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43 Action potential |
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44 Electric potential along a distributed line |
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45 Propagation of the action potential |
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46 Electric graphs: ECG and EEG |
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Electromagnetism |
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47 Magnetic phenomena |
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48 Electromagnetic induction |
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49 Alternate current (first part) |
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50 Alternate current (second part) |
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51 Electromagnetic waves |
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Wave phenomena |
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52 - Wave general description |
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53 - Fouriers analysis |
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54 - Wave propagation |
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55 - Wave interference |
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Acoustics |
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56 Sound waves |
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57 Acoustic sensation |
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58 Hearing |
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59 Acoustic instrumentation |
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Optics |
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60 Light description |
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61 Physical Optics |
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62 Geometrical Optics part A |
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63 Geometrical Optics part B |
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64 Optical aberrations |
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65 Microscopy |
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66 Optical instrumentation |
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67 The eye and seeing |
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68 Vision mechanism |
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69 Vision in animals |
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Matter and radiation |
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70 Electromagnetic radiation |
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71 Atoms |
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72 Nuclei |
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73 Elementary particles |
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74 X-ray production |
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76 X-ray absorption part A |
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77 X-ray absorption part B |
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78 Ionizing radiation |
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79 Dosimetry |
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Calculus |
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80 Mathematics in general |
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81 Vector calculus |
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82 Functions |
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83 Differentiation |
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84 Integration |
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Optional Teaching Activities (OTA lectures) |
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85 - Cardiovascular models |
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86 Effects of distensibility C |
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87 Electrocardiography A |
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88 Electrocardiography B |
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89 Electrocardiography C |
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90 Imaging A |
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91 Imaging B |
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92 Computer Tomography (X-ray) |
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93 SPET and PET |
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94 Magnetic Resonance A |
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95 - Magnetic Resonance B |
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