• Lecture:
Particular lectures contents |
Number ofhours |
1. Content of the lecture. Basic information about structure and |
2 |
content of geospheres: atmosphere, hydrosphere and lithosphere. | |
2. Atmosphere: energetic balance, emission spectrum of the Sun, | |
circulation of atmosphere, turbulent diffusion, temperaturę |
2 |
inversion. | |
3. Hydrosphere: surface underground and glacial waters. Balance of |
2 |
heat and water, Chemical content of waters, organie substances in | |
waters, temperaturę inversions. | |
4. Lithosphere and soils. Chemical content of earth’s crust. | |
Characteristics and Chemical content of soils. |
2 |
5. Biogechemical cycles of elements: carbon, oxygen, hydrogen, | |
nitrogen, sulfur, and phosphorus. Biosphere rule on Chemical |
2 |
content of geo sphers. | |
6. Climate on the Earth and its influence on atmosphere content. | |
Spectroscopy of chosen gases. Global potential of Earth heating |
2 |
for particular gases. Hydrogeological cycle and water vapor. | |
Sources of greenhouse gases: CO2, CO, N2O, and freon. | |
7. Atmospheric aerosols - nomenclature and their characteristics. |
2 |
Chemical processes with aerosols. | |
8. Oxidation properties of atmosphere. Chemical reactions in | |
atmosphere. Photochemical smog. Ozone. Influence of ozone in |
2 |
atmosphere on live organisms. | |
9. Acidic rains. Chemical composition of atmospheric fall-out. |
2 |
Oxidation of acids. Acidic rains in Poland and Europę. Ecological | |
effect of acidic rains. | |
10. Chemistry of ozone in atmosphere. Chapman cycle of ozone |
3 |
forming and decomposition. Ozone hole in stratosphere. | |
Heterogenic reactions on crystalline ice. Influence of freones on | |
ozone decomposition. | |
11. Anthropogenic contamination of environment. Eutrophisation of | |
surface waters. Radioactivity of atmosphere, soils and surface |
3 |
waters. Ionizing and nonionizing radioactivity. Radioactivity | |
effect on living organisms. | |
12. Energy and environment. Natural fuels as main sources of | |
energy. Alternative energy sources: solar, wind, water and |
2 |
biomass energy. | |
13. Chemical interactions in the naturę. Interactions between alga, | |
fungi and bacterial. Plant toxins. |
4 |
• Classes - the contents:
• Seminars - the contents:
• Laboratory - the contents:
• Project - the contents:
20