. "Manufacturing Engineering"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Basics of space technology"@en . . "6.00" . "Learning outcomes\n\nThe module teaches the basics of space technology. Space systems engineers need general knowledge of various technical and programmatic topics in space technology. This knowledge allows them to classify their space projects in terms of scope, space history, space environment, possible orbits,\nlaunch vehicle options, and many other aspects. The module introduces software tools relevant to space engineers. Students will be able to use these tools and apply the knowledge acquired in other modules and in their professional careers.\n\n\nAfter successful completion of this course, students will be able to: - List and describe various space activities\n- to name historical events and personalities in space history - to describe - to explain the properties of\ndifferent and special orbits - to reproduce coordinate and time systems - to describe and categorize Kepler elements - to calculate impulsive\norbital maneuvers and delta v requirements - to differentiate and classify spatial and planar orbital maneuvers - explain interplanetary\norbits - explain the basic principles of rocketry and the main elements of a rocket engine\n- calculate basic parameters of a rocket (e.g.\nmasses, thrust, specific impulse, efficiencies and speeds) - the basic functional and structural design of launch\nvehicles with fixed and liquid propellant - describe space transport systems and elements of launch vehicles - describe the procedures and logistics relevant to\nthe construction and operation of launch vehicles (e.g. integration, tests, launch complex, launch procedures, recovery) - differentiate between different types of propulsion and systems - Recognize and evaluate combustion\ncycles - Explain the challenges of the space environment for a space mission - Differentiate and name satellite payloads as well as satellite buses and their subsystems - Summarize the\ntechnology and benefits of space stations\n- discuss the challenges of reentry - apply scientific tools\nto carry out numerical simulations and calculate ascent trajectories and orbital maneuvers - use software tools to document scientific work in a professional environment\n\n\nTeaching content\n\nThe content of the space technology I module covers the following subject areas:\n- Basic space activities\n- History of space travel\n- Space flight mechanics:\n-- Kepler's laws\n-- Kepler elements\n-- time systems\n-- Coordinate systems\n-- Planar orbit maneuvers\n-- Hohmann transfer\n-- Bi-Elliptical Transfer\n-- Spatial orbit maneuvers\n-- Special orbits\n-- Delta v requirement\n-- Two Line Elements\n-- Interplanetary orbits\n-- spiral paths\n- Rocketry:\nBasic rocket equation\n-- Specific impulses\n-- Efficiencies\n-- Grading principles\n-- ascent railways\n-- Space transportation systems\n-- Rocket structures\n-- Manufacturing and integration\n-- Testing\n-- Launch complex layout\n-- Launch procedures\n-- Reusable rockets\n- Space propulsion:\n-- Drive types (chemical, electrical, ...)\n-- Drive systems (single-fuel, dual-fuel, solid)\n-- Thrust profiles\n-- Combustion cycles\n-- Fuel combinations\n-- Grouping of electric drives\n- Satellite subsystems\n- Space environment\n- Technology of a space station\n- Space junk\n- Re-entry" . . "Presential"@en . "FALSE" . . "Master of Aeronautics and Astronautics"@en . . "https://www.tu.berlin/en/studying/study-programs/all-programs-offered/study-course/aeronautics-and-astronautics-m-sc" . "120"^^ . "Presential"@en . "Program overview\nThe master’s program in Aeronautics and Astronautics provides you with an all-round knowledge of all areas relating to the construction and operation of aircraft and astronautic systems, including aerodynamics, drive engineering and satellite technology, and flight control as well as their integral systems. During the program you examine the design, development, and production of aircraft and spacecraft on the basis of advanced engineering methods. You also address application-related issues with continuous reference to professional practice. A wide range of teaching and research equipment is available such as a modern ultralight aircraft and various flight simulators and wind tunnels."@en . . . . . . . . . . . "2"@en . "TRUE" . . . "Master"@en . "Thesis" . "226.00" . "Euro"@en . "Not informative" . "Mandatory" . "There are many career opportunities for graduates of the Aeronautics and Astronautics program. These include management positions in industry and science. Other typical examples of career opportunities include:\n\nThe design, development, production and operation of aeronautic craft and systems\nApplication-based basic research\nThe assessment and integration of new technologies\nThe planning, development, and management of complex networked aerospace systems\nThe planning, implementation, and operation of air transport systems and their infrastructures\nDeveloping guidelines for the implementation, operation, and monitoring of aerospace systems and their infrastructures\nExamining the safety and environmental compatibility of aerospace systems and their infrastructures\nSuccessfully completing the master’s program also qualifies you for a doctorate and the opportunity to pursue an academic career."@en . "1"^^ . "FALSE" . "Upstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .