1. Learn about solar radiation and its various laws and how it relates to the processes that occur in the atmosphere with an understanding of the electromagnetic spectrum and wave theory.2. Learn about radiation laws and how they are used in analyzing atmospheric elements, understanding energy balance, energy density, and the transmission of waves through them.3. Familiarity with the interactions of solar radiation with gaseous components of the atmosphere and the role of the resulting energy in interaction with components on the earth's surface, as well as atmospheric phenomena related to radiation and making some predictive applications on them.
Intended learning outcomes
a. Knowledge and understanding:1. The student will be familiar with solar radiation and energy, radiation laws, radiative transmission and related processes in the atmosphere, as well as the electromagnetic spectrum and wave theory.2. The student should explain the relationship between radiation laws and the analysis of atmospheric elements associated with it, the energy balance, how energy transfers to waves as well as energy density.3. The student should explain the interaction of radiation with gases and atmospheric processes associated with energy changes and their interaction with the components of the earth's surface, atmospheric phenomena related to radiation and the applications of these atmospheric phenomena.B. Mental skills:1. That the student relates solar radiation to the processes associated with it in the atmosphere and analyzes the electromagnetic spectrum and wave theory.2. That the student deduces the relationship between radiation laws and the analysis of atmospheric elements associated with it, as well as analyzes the energy balance and the process of energy transfer of waves.c. Practical and professional skills:1. The student should design programs dedicated to the analysis of atmospheric elements related to solar radiation, as well as to understand the mechanism of energy transfer of waves.2. The student should perform the appropriate exercises to expand his knowledge about solar radiation and energy, radiation laws, radiation transmission, as well as the electromagnetic spectrum and wave theory.Dr.. General and transferable skills:1. The student should be able to use the Internet to understand the role of energy generated from solar radiation in interaction with the components on the earth's surface.2. The student should be able to present a visual scientific presentation explaining the results of the analysis of atmospheric elements related to solar radiation and the analysis of data from radiation sensors and spectrometers.
Teaching and learning methods
1. Theoretical lectures.2. Exercises.3. Applications and Duties.
