Index

 

A-   Program

B-   Medicine

C-   Physics

 

Fluid mechanics in biological systems

 

 

01 – Introduction

MF01-start.pdf

02 – The cardiovascular system and continuity equation

MF02-continuity.pdf

03 – Mechanics and Dynamics principles

M01-principles.pdf

04 – Laminar and irregular flows

MF03-flows.pdf

05 – Formal proof of the Poiseulle’s formula

MF03a-Poiseulle.pdf

06 – Energy and potential energy

M02-energy.pdf

07 – Bernoulli theorem and applications

MF04-bernoulli.pdf

08 – Ducts mechanical resistance

MF05-resistances.pdf

09 – Hydrostatic pressure and consequences

MF06-hydrostatics.pdf

10 – The heart cycle and heart power

MF07-heart.pdf

11 – Blood viscosity

MF08-blood.pdf

12 – Liquid surphace tension

MF09-surf.tension.pdf

13 – Ducts wall distensibility

MF10-distensibilityA.pdf

14 – Effects of ducts distensibility

MF11-distensibilityB.pdf

15 – Beating and consequences

MF12-beating.pdf

16 – Conclusion

MF13-conclusion.pdf

17 – Sedimentation and centrifugation

MF14-transportA.pdf

18 – Preparation and analytic centrifuge

MF15-transportB.pdf

 

 

Biomechanics

 

 

19 – Balance conditions in solid bodies

BM01-balanceA.pdf

20 – Levers and applications to human joints

BM02-balanceB.pdf

21 – Joints balance

BM04-joints.pdf

22 – Deformable bodies

BM07-strain.pdf

 

 

Thermodynamics

 

 

23 – Heat, temperature and calorimetry

TD01-heat.pdf

24 – Ideal gas and real gas

TD02-gas A.pdf

25 – Themodynamics principles

TD04-principles.pdf

26 – Free energy and biological applications

TD05-free energy.pdf

27 – Heat transmission

TD06-balances.pdf

 

 

Membrane Physics

 

 

28 – Membranes and transport through membranes

M01-membranes.pdf

29 – Diffusion

M02-diffusion.pdf

30 – Filtration

M03-filtration.pdf

31 – Gas-liquid balance

M04-gas-liquid.pdf

32 – Osmosis

M05-osmosis.pdf

33 – Osmotic balances

M06-applications.pdf

 

 

Electric phenomena

 

 

34 – Electrostatics

FE01-electrostatics.pdf

35 – Electric dipole and electric capacitor

FE02-dipole-capacity.pdf

36 – Electric current and Ohm’s laws

FE03-ohm.pdf

37 – Capacitor charging and discharging

FE04-charge-discharge.pdf

38 – Electrochemical solutions

FE05-electrochemistry.pdf

 

 

Electrochemical equilibrium

 

 

39 – Electrochemical equilibrium

EEC01-balance.pdf

40 – Applications to capillaries membrane

EEC02-capillaries.pdf

41 – Applications to cells membranes

EEC03-cells.pdf

42 – Sodium-potassium pump

EELC04-pump NaK.pdf

43 – Action potential

EELC05-action.pdf

44 – Electric potential along a distributed line

EEC05a-line.pdf

45 – Propagation of the action potential

EELC06-propagation.pdf

46 – Electric graphs: ECG and EEG

EEC07-ecg_eeg.pdf

 

 

Electromagnetism

 

 

47 – Magnetic phenomena

ELM01-magnetism.pdf

48 – Electromagnetic induction

ELM02-induction.pdf

49 – Alternate current (first part)

ELM03-a.c. A.pdf

50 – Alternate current (second part)

ELM04-a.c. B.pdf

51 – Electromagnetic waves

ELM05-elm waves.pdf

 

 

Wave phenomena

 

 

52 - Wave general description

ONDE01-waves.pdf

53 - Fourier’s analysis

ONDE02-fourier.pdf

54 - Wave propagation

ONDE03-propagation.pdf

55 - Wave interference

ONDE04-interference.pdf

 

 

Acoustics

 

 

 

56 – Sound  waves

A01-acoustics.pdf

57 – Acoustic sensation

A02-sensation.pdf

58 – Hearing

A03-hearing.pdf

59 – Acoustic instrumentation

A04-instruments.pdf

 

 

Optics

 

 

 

60 – Light description

O01-light.pdf

61 – Physical Optics

O02-physical.pdf

62 – Geometrical Optics part A

O03-geometrical A.pdf

63 – Geometrical Optics part B

O04-geometrical B.pdf

64 – Optical aberrations

O05-aberrations.pdf

65 – Microscopy

O06-microscopy.pdf

66 – Optical instrumentation

O07-instruments.pdf

67 – The eye and seeing

O08-seeing.pdf

68 – Vision mechanism

O09-vision.pdf

69 – Vision in animals

O10-animals.pdf

 

 

Matter and radiation

 

 

 

70 – Electromagnetic radiation

R01-elm.pdf

71 – Atoms

R02-atoms.pdf

72 – Nuclei

R03-nuclei.pdf

73 – Elementary particles

R04-particles.pdf

74 – X-ray production

R05-rX production.pdf

76 – X-ray absorption part A

R06-rX absorbA.pdf

77 – X-ray absorption part B

R07-rX absorbB.pdf

78 – Ionizing radiation

R08-ionizing.pdf

79 – Dosimetry

R09-dosimetriy.pdf

Recapitulation

Recapitulation.pdf

 

 

Calculus

 

 

 

80 – Mathematics in general

C01-math.pdf

81 – Vector calculus

C02-vectors.pdf

82 – Functions

C03-functions.kn.pdf

83 – Differentiation

C04-differentiation.pdf

84 – Integration

C05-integration.kn.pdf

 

 

Optional Teaching Activities (OTA lectures)

 

 

 

85 - Cardiovascular models

OTA1-CVmodels.pdf

86 – Effects of distensibility C

OTA1-distensibilityC.pdf

87 – Electrocardiography A

OTA2-ECGa.pdf

88 – Electrocardiography B

OTA2-ECGb.pdf

89 – Electrocardiography C

OTA2-ECGc.pdf

90 – Imaging A

OTA3-imA.pdf

91 – Imaging B

OTA3-imB.pdf

92 – Computer Tomography (X-ray)

OTA3-CT.pdf

93 – SPET and PET

OTA3-SPET_PET.pdf

94 – Magnetic Resonance A

OTA3-MRA.pdf

95 - Magnetic Resonance B

OTA3-MRB.pdf

96 - OTA A hadrontherapy

OTA A hadrontherapy .pdf

97 – OTA B hadrontherapy

OTA B hadrontherapy .pdf