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Academic Programs in Space Science and Engineering

Explore various academic programs in space science and engineering offered by prestigious universities worldwide. Gain knowledge in areas like space physics, plasma physics, astrodynamics, and more.

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Academic Programs in Space Science and Engineering

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  1. 4.1 Przegląd programów kształcenia akademickiego dla potrzeb • badań kosmicznych • University of Michigan, USA 12aoss_UMich.pdf • University of Shieffield, UK Sheffhttp://www.aber.ac.uk/schemes/current/F366-MPHYS.html • University of Uppsala, Sweden - space engineering • European Space Master, EU EU • Uniwersytet im. Karola IV, Praga Ch • Polskie uczelnie: • UW – geofizyka, fizyka, astronomia – fizyka przestrzeni wokółziemskiej, fizyka • plazmy kosmicznej nie jest przedmiotem wykładu • AGH – Wydz. Geologii, Geofizyki i Ochrony Środowiska, Zakład • Geofizyki – prof. Zofia Mortimer, wykłady, seminaria - AGH.pdf • PW, PRz, Wyższa Szkoła Oficerska Sił Powietrznych w Dęblinie,.. • – lotnictwo i kosmonautyka (aircraft and space vehicle engineering, • aerospace... ) PW

  2. Rymd- och plasmafysik(space- and plasma physics) Grundkurs Rymdfysik och rymdteknik, 5.0 p Fortsättningskurs Antennteori, 5.0 pElektromagnetisk fältteori MN1, 5.0 pElektronik i rymden, 4.0 pFluidmekanik, 4.0 pKlassisk elektrodynamik MN1, 5.0 pMikrovågsteknik I, 3.0 pPlasmafysik, 4.0 pRymdfysik NV1, 6.0 pRymdprojekt, 5.0 p(projekt misji satelitarnej, przyrządu satelitarnego)

  3. University of Michigan • Atmospheric, Oceanic, and Space Sciences: • The Master of Engineering Degree in Space Engineering, program concentrations: • Space science program • Propulsion program • Plasma electrodynamics & sensor program • Instrumentation & sensor payloads program • Launch vehicles program • Telemetry and spacecraft communications program • Astrodynamics program • Computer control and data handling program • M. Sc. In Atmospheric ans Space Sciences • Wybrane wykłady: - The planets: their geology and climates; Instrumentation • for atmosheric and space sciences; Introduction to the space and spacecraft • environment;Solar-terrestrial relations; Practicum in atmospheric, oceanic and • space sciences( aircraft spacecraft and rocket payload design, field campaign • support, calibration simulation..);Radiative transfer; Planetary atmospheres; Space • policy and management; Spacecraft technology; Space instrumentation; Space • systems projects; Intro to remote sensing and inversity theory; Magnetosphere and • solar wind; Fundamentals of space plasma physics;Current topics in Atm./Oceanic/ • Space Sciences; Space Terahertz Technology and applications.

  4. The SpaceMaster – Joint European Master in Space Science and Technology. The European Commission selected this project among a few others from over 200 proposals to the Erasmus Mundus programme: This two year Master Course is a joint effort between six European universities: • Cranfield University, UK • Czech Technical University, Czech Republic • Helsinki University of Technology, Finland • Julius-Maximilians Universität Würzburg, Germany • Luleå University of Technology, Kiruna Space Campus, Sweden • Universite Paul Sabatier Toulouse III, France EU

  5. Uniwersytet Karola, Wydz. Mat. –Fiz. • Research: • 1. Study of the Earth and Universe by the Methods of • Theoretical, Computer and Experimental Physics • ---Study of the Earth’s magnetosphere and interrelations in the chain: • Solar wind-magnetosphere-ionosphere • ---The physics of interplanetary and interstellar matter, planets, • stars, and their systems • ---Astrophysical applications of relativistic and quantum theory

  6. 4.2 Przegląd podręczników akademickich w dziedzinie fizyki przestrzeni kosmicznej: powinien być poszerzony • Russell, C. T. and M. Kivelson, Introduction to space physics” (1995), • Cambridge Univ. Press – praca zbiorowa, wyklady w UCLA, Dept. of Earth and Space Sciences, dla studentów i doktorantów, satelitarne obserwacje plazmowego otoczenia Ziemi innych planet, teoria niezbędna do ich interpretacji R&K • Gombosi, T., „Physics of the space environment” (1998), Cambridge Univ. Press - szeroko zakrojony wstęp do fizyki otoczenia planet i zagadnień pogody kosmicznej, dla studentów fizyki, astronomii, astrofizyki, planetologii, meteorologii, aeronomii, lotnictwa i kosmonautyki, technik elektryczności (aerospace and electrical engineering), komputerowego modelowania w hydrodynamice TG • Ondoh, T., and K. Marubashi (eds),”Science of space environment” (2001), IOS Press, Japan - dla studentów, doktorantów, i specjalistówOM • Tribble, A.C. „ The space environment: Implications for spacecraft design”(2003),Princeton Univ. Press - dla inżynierów i studentów kosmonautyki, dla projektantów aparatury satelitarnej T

  7. Russell & Kivelson (1995) • A brief history of solar-terrestrial physics • Physics of space plasmas (single particle, fluid) • The Sun and its magnetohydrodynamics • The solar wind • Collisionless shocks • Solar-wind interaction with magnetized planets • Ionospheres • Plasma interaction with unmagnetized bodies • The magnetopause, magnetotail and magnetic reconnetion • Magnetospheric configuration • Pulsations and MHD waves • Plasma waves • Magnetospheric dynamics • The aurora and auroral ionosphere • The magnetospheres of the outer planets

  8. Gombosi (1998) • I Theoretical description of gases and plasmas • Particle orbit theory • Kinetic Theory • Basic Plasma Phenomena (Debye shielding, Plasma parameter, Plasma frequency) • Fluid and MHD theory • Waves and oscillations • Shocks and discontinuities • Transport of suprathermal particles • II The upper atmosphere • 8. The terrestrial upper atmosphere • 9. Airglow and Aurora • 10. The ionosphere • III Sun-Earth connections • 11. The Sun • 12. The solar wind • 13. Cosmic rays and energetic particles • 14. The terrestrial magnetosphere • Appendices: Physical constants, Vector and tensor identities, Some important • Integrals, Some useful special functions

  9. Ondoh, 2001 • Overview of the science of space environment: Forms of energy • Emitted from the Sun; The terrestrial atmosphere; The ionosphere; Earth’s magnetic • field; The magnetosphere; The changing space environment • The Sun and the solar wind: Energy radiation from the Sun;Theory of the solar • Wind; Structure of the interplanetary space; Solar flares; Coronal mass ejections;Particle • acceleration in solar flares; Particle acceleration in interplanetary shocks • The ionosphere: ...Ionospheric instabilitity; Currents; Equatorial Spread-F; • Middle latitude instabilities; High latitude instabilities • Ionospheric radio propagation:....Radiowave propagation; Ionosondes; Short • wave communication;Transionospheric propagation and TEC – group delay, Doppler shift, • Faraday rotation; Ionospheric irregularities and radio wave propagation- Spread F, • Scintillations, ionosperic storms • The magnetosphere • The magnetospheric particle environment:....Outflow of ionospheric plasma; • Spacecraft charging; Spacecraft eclipse....... • The space radiation environment and the space weather information • The geospace radio environment: .....Radiowaves from solar system planets; • Answers to exercises • Index • Interludes

  10. Tribble (2003) • -Intro: (Overview; The space environment; Spacecraft design; The Earth’s Fields; • The Solar-Planetary Relationship; Exercises;References) • -The vacuum environment and its effects • The neutral environment and its effects • The plasma environment and its effects (Overview; The plasma • environment; Plasma environment effects; Modeling, simulation, testing; • Design guidelines and mitigation techniques; Exercises; References) • The radiation environment and its effects • The micrometeoroid/space debrisenvironment and its effects • -Appendices (nomenclature, acronyms, physical constants, LDEF – Long Duration Exposure Facility) • *Autor pracował w Boeing Space Systems Division, zajmował się • projektowaniem satelitów, teraz w Rockwell Collins (aviation electronics)

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