Aircraft Meteorology
Code | Completion | Credits | Range | Language |
---|---|---|---|---|
XD38LEM | KZ | 3 | 12+2s | Czech |
- Lecturer:
- Tutor:
- Supervisor:
- Department of Measurement
- Synopsis:
-
1. Atmosphere - standard and real. Atmospheric thermodynamic
2. Radiation, airmasses, atmospheric frontal system
3. Baric systems, atmospheric flows
4. Extreme conditions of streams - cyclones, tornados, local influences, JTST
5. Convective structural and phenomena, vertical movements, cloudiness, turbulence
6. Meteorological optical range (MOR) and visibility
7. Dangerous meteor. phenomena from the poin of view
8. Weather phenomena in different meteorological situations
9. Met. measurement and observing automatization, met.satelittes
10. Meteorological radioprobes and met. radars
11. Meteor. reporting, nets, organization of meteor. service
12. Weather forecasts
13. Meteorology, climatology, hydrology and natural environment protection
14. Examples of implementation of services of the Centrum of Hydrometeorological Service
- Requirements:
- Syllabus of lectures:
-
1. Atmosphere - standard and real. Atmospheric thermodynamic
2. Radiation, airmasses, atmospheric frontal system
3. Baric systems, atmospheric flows
4. Extreme conditions of streams - cyclones, tornados, local influences, JTST
5. Convective structural and phenomena, vertical movements, cloudiness, turbulence
6. Meteorological optical range (MOR) and visibility
7. Dangerous meteor. phenomena from the poin of view
8. Weather phenomena in different meteorological situations
9. Met. measurement and observing automatization, met.satelittes
10. Meteorological radioprobes and met. radars
11. Meteor. reporting, nets, organization of meteor. service
12. Weather forecasts
13. Meteorology, climatology, hydrology and natural environment protection
14. Examples of implementation of services of the Centrum of Hydrometeorological Service
- Syllabus of tutorials:
-
1. Using of the stand. and real atmosphere. Thermometers and hygrometers
2. Graphic representation of atmospheric frontal systems
3. Graphic representation of baric field, barometers, anemometers
4. Convective structural and phenomena, vertical movements, cloudiness, turbulence
5. Evaluation of convective phenomena, observing of cloudines
6. Instruments for MOR and visibility measurement
7. Simulation of phenomena on real technologies
8. Using of meteorological maps and graphics
9. Presentation of measuring systems and results
10. Excursion to Czech Hydrometeorological Institut - Aerological Department in Prague - Libuš
11. Presentation and decoding of aeronaut. met. reports and information
12. Presentation and usage of weather forecast models
13. Using of climatological and hydrological documents
14. Practical use of some actual meteorological materials
- Study Objective:
- Study materials:
-
1. ACADEMIA: Terminological and explanatory dictionary of meteorology. 1993
2. WMO - CIMO: Guide for meteorological measuring and observations. Geneve 1996
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- Economics and Management of Power Engineering- structured studies (elective specialized course)