. "Thermal control and thermomechanical interactions in space vehicles"@en . . "6" . "Fundamentals of calorimetry, postulate and equation of Fourier, main conduction parameters. Radiative heat transfer: \r\nlaws of Planck, Wien, Stefann-Boltzmann, Lambert. Characterization of the space environment from a thermal point of \r\nview. The main radiative sources: the Sun, the Earth, the Albedo. Thermal modelization of the spacecraft. Thermal \r\nbalance equations. Propulsion effects of the radiation: the solar sail. \r\nGeneral introduction to the interaction problems in space; historical review. Weak and full interaction and related \r\ndescription. One–way static and dynamic coupling, key parameters governing the phenomenon; examples. Two-ways \r\nstatic and dynamic coupling; integrated modelization of the space systems; examples. Thermal flutter and divergence; \r\nnumerical approach to the solution. Review of some remarkable occurrences of thermally induced disturbances onboard \r\nof satellites; physical and mathematical description. \r\nReferences: Robert D. Karam “Satellite Thermal Control for System Engineers”, Progress in Astronautics and \r\nAeronautics." . . "Presential"@en . "FALSE" . . "Space Architecture"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Master in Aerospace Engineering"@en . . "SPECIAL MASTER OF AEROSPACE ENGINEERING | Scuola di Ingegneria Aerospaziale (uniroma1.it)" . "no data" . "Presential"@en . "The learning objective of the Special Master of Aerospace Engineering is training experts that can be employed in advanced research and development centers in aerospace engineering.\n\nAn important aspect of the program consists in giving students a system-oriented approach to aerospace engineering. The capability of having a system-oriented and global vision of a space mission is not common in the industry because complexity of each subsystem pushes engineers to focus on single aspects. The design of the general architecture is assigned to the system engineer who is a long-experienced engineer that is able to have a global understanding of the project due to their experience acquired in various subsystems. System engineers are increasingly more difficult to find due to discontinuities that occur over time in the development of large space projects.\nMaster programs in aerospace engineering tend to provide students with at most a basic education in one of the areas of aerospace engineering because of the continuous technological advancement. On the other hand, complexity of current space programs asks for professionals capable of having an insight in extremely various technical aspects. Thus, education offered by the Special Master is extremely important in the industry since it trains system engineers in astronautics."@en . . "2"@en . "FALSE" . . "Master"@en . "Thesis" . "no tuition, other costs may apply" . "no data"@en . "no tuition, other costs may apply" . "None" . "The Special Master of Aerospace Engineering leads to the following career opportunities\n\nin the industry: system engineer for industrial aerospace projects, engineer for automatic and robotic systems,operator of systems for remote sensing, observation, and surveillance\nsupervisor of space missions, including launch operations and ground operations for tracking, remote control, remote sensing, and data processing expert for engineering aspects of the effects of space environment on human beings and on parts of aerospace systems, consultant for strategic and decisional processes of space agencies. \nin research centers: researcher in space systems, researcher in the development of innovative materials for astronautics, researcher in astrodynamics and control of aerospace systems, expert for scientific missions for exploration of solar system.\nin the area of education and cultural activities: instructor for industry and military staff, disseminator of aerospace culture"@en . "no data" . "FALSE" . "Upstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .