| 1 |
Reading of Literature |
Physical properties and viscosity of blood |
Lecture |
| 2 |
Individual research |
Relation between pressure, flow and resistance in vessels |
Lecture |
| 3 |
Individual research |
Speed and flow in internal friction flow |
Lecture |
| 4 |
Reading of Literature |
Relation between pressure, flow and resistance in vessels |
Discussion |
| 5 |
Reading of Literature |
Poiseuille law, Laminar and Turbulan flows |
Discussion |
| 6 |
Web-Based Research |
Resistance in series and parallel connected vessel systems |
Lecture |
| 7 |
Web-Based Research |
Laplace's law, Electromagnetic and ultrasonic Doppler Flowmeters |
Case Study |
| 8 |
Web-Based Research |
Pressure-potential energy-heat energy relationship, Bernouilli's law, Calculation of pressure in arteries and veins, |
Case Study |
| 9 |
Reading of Literature |
Respiratory system and function |
Lecture |
| 10 |
- |
MID-TERM EXAM |
- |
| 11 |
Reading of Literature |
Respiratory gas laws |
Lecture |
| 12 |
Individual research |
Lung and chest compliance |
Discussion |
| 13 |
Individual research |
Respiratory resistance factor |
Case Study |
| 14 |
Individual research |
Solubility of blood gases and gas exchange between alveoli and blood |
Lecture |
| 15 |
Web-Based Research |
Lung volumes and capacities, Functional residual capacity determination |
Lecture |
| 16 |
- |
FINAL EXAM |
- |
| 17 |
- |
FINAL EXAM |
- |