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Combined display of all available logs of Galactic Library. You can narrow down the view by selecting a log type, the username (case-sensitive), or the affected page (also case-sensitive).

• 09:21, 25 February 2024 Lwcamp talk contribs created page File:Regolith Shielding.png (Relative effect of radiation (compared to no shielding) behind different thicknesses of water, aluminum, and lunar regolith. Tony C. Slaba, "Radiation Shielding for Lunar Missions: Regolith Considerations", LSIC Crosstalk 7/18/2022 https://lsic.jhuapl.edu/uploadedDocs/focus-files/1604-E&C%20+%20EE%20Monthly%20Meeting%20-%202022%2007%20July_Presentation%20-%20NASA%20Slaba.pdf)
• 09:21, 25 February 2024 Lwcamp talk contribs uploaded File:Regolith Shielding.png (Relative effect of radiation (compared to no shielding) behind different thicknesses of water, aluminum, and lunar regolith. Tony C. Slaba, "Radiation Shielding for Lunar Missions: Regolith Considerations", LSIC Crosstalk 7/18/2022 https://lsic.jhuapl.edu/uploadedDocs/focus-files/1604-E&C%20+%20EE%20Monthly%20Meeting%20-%202022%2007%20July_Presentation%20-%20NASA%20Slaba.pdf)
• 20:24, 24 February 2024 Lwcamp talk contribs created page File:GCR Thick Shielding Atmospheric.png (Dose rates for atmospheric shielding. Robert C. Youngquist, Mark A. Nurge, Stanley O. Starr, Steven L. Koontz, "Thick galactic cosmic radiation shielding using atmospheric data", Acta Astronomica <b>94</b> (2014) 132-138 https://citeseerx.ist.psu.edu/document?repid=rep1&type=pdf&doi=6b1a8887b05a92afd074e5b935a8bd5148dfc8d9)
• 20:24, 24 February 2024 Lwcamp talk contribs uploaded File:GCR Thick Shielding Atmospheric.png (Dose rates for atmospheric shielding. Robert C. Youngquist, Mark A. Nurge, Stanley O. Starr, Steven L. Koontz, "Thick galactic cosmic radiation shielding using atmospheric data", Acta Astronomica <b>94</b> (2014) 132-138 https://citeseerx.ist.psu.edu/document?repid=rep1&type=pdf&doi=6b1a8887b05a92afd074e5b935a8bd5148dfc8d9)
• 18:37, 24 February 2024 Lwcamp talk contribs created page File:GCR Shielding Effectiveness.png (Relative effect of radiation on biological tissue behind a given density of material. The results of two models are shown. On the left is the standard risk assessment method using quality factor as a function of linear energy transfer. On the right is a track structure repair kinetic model for mouse cells. W. Schimmerling <i>et al.</i>, "Shielding Against Galactic Cosmic Rays", Adv. Space Res. Vol. 17 No. 2 pp. (2)31-(2)36 (1996))
• 18:37, 24 February 2024 Lwcamp talk contribs uploaded File:GCR Shielding Effectiveness.png (Relative effect of radiation on biological tissue behind a given density of material. The results of two models are shown. On the left is the standard risk assessment method using quality factor as a function of linear energy transfer. On the right is a track structure repair kinetic model for mouse cells. W. Schimmerling <i>et al.</i>, "Shielding Against Galactic Cosmic Rays", Adv. Space Res. Vol. 17 No. 2 pp. (2)31-(2)36 (1996))
• 16:55, 23 February 2024 Lwcamp talk contribs uploaded a new version of File:Planetary magnetic field and radiation belts.png
• 16:54, 23 February 2024 Lwcamp talk contribs uploaded a new version of File:Planetary magnetic field and radiation belts.png
• 09:46, 23 February 2024 Lwcamp talk contribs created page File:Dose rate at Ganymede and Europa with shielding.png (Dose rate at Europa and Ganymede orbit for different amounts of shielding. Podzolko, M.V.; Getselev, I.V. (March 8, 2013). [https://forum.nasaspaceflight.com/index.php?action=dlattach;topic=32688.0;attach=541277 "Radiation Conditions of a Mission to Jupiterʼs Moon Ganymede"]. International Colloquium and Workshop "Ganymede Lander: Scientific Goals and Experiments. IKI, Moscow, Russia: Moscow State University.)
• 09:46, 23 February 2024 Lwcamp talk contribs uploaded File:Dose rate at Ganymede and Europa with shielding.png (Dose rate at Europa and Ganymede orbit for different amounts of shielding. Podzolko, M.V.; Getselev, I.V. (March 8, 2013). [https://forum.nasaspaceflight.com/index.php?action=dlattach;topic=32688.0;attach=541277 "Radiation Conditions of a Mission to Jupiterʼs Moon Ganymede"]. International Colloquium and Workshop "Ganymede Lander: Scientific Goals and Experiments. IKI, Moscow, Russia: Moscow State University.)
• 09:32, 23 February 2024 Lwcamp talk contribs created page File:Jupiter radiation environment.png (Radiation dose rate with distance from Jupiter's center, as measured in Jupiter radii. Podzolko, M.V.; Getselev, I.V. (March 8, 2013). [https://forum.nasaspaceflight.com/index.php?action=dlattach;topic=32688.0;attach=541277 "Radiation Conditions of a Mission to Jupiterʼs Moon Ganymede"]. International Colloquium and Workshop "Ganymede Lander: Scientific Goals and Experiments. IKI, Moscow, Russia: Moscow State University.)
• 09:32, 23 February 2024 Lwcamp talk contribs uploaded File:Jupiter radiation environment.png (Radiation dose rate with distance from Jupiter's center, as measured in Jupiter radii. Podzolko, M.V.; Getselev, I.V. (March 8, 2013). [https://forum.nasaspaceflight.com/index.php?action=dlattach;topic=32688.0;attach=541277 "Radiation Conditions of a Mission to Jupiterʼs Moon Ganymede"]. International Colloquium and Workshop "Ganymede Lander: Scientific Goals and Experiments. IKI, Moscow, Russia: Moscow State University.)
• 20:53, 21 February 2024 Lwcamp talk contribs created page File:Proton energy spectra Van Allen belt.png (Typical proton energy spectra for the inner Van Allen belt for magnetic shells extending to various distances as measured in Earth radii from Earth's center.)
• 20:53, 21 February 2024 Lwcamp talk contribs uploaded File:Proton energy spectra Van Allen belt.png (Typical proton energy spectra for the inner Van Allen belt for magnetic shells extending to various distances as measured in Earth radii from Earth's center.)
• 18:21, 21 February 2024 Lwcamp talk contribs created page File:Planetary magnetic field and radiation belts.png (Planetary magnetic field (black) with trapped radiation belts (green) and the trajectory of an individual charged particle in the belt (red).)
• 18:21, 21 February 2024 Lwcamp talk contribs uploaded File:Planetary magnetic field and radiation belts.png (Planetary magnetic field (black) with trapped radiation belts (green) and the trajectory of an individual charged particle in the belt (red).)
• 21:47, 19 February 2024 Lwcamp talk contribs created page File:Proton Energy Spectra Space Radiation.png (Proton energy spectra at 1 AU, showing the increase in solar energetic particles during solar particle events. SEP = solar energetic particle, GCR = galactic cosmic ray.)
• 21:47, 19 February 2024 Lwcamp talk contribs uploaded File:Proton Energy Spectra Space Radiation.png (Proton energy spectra at 1 AU, showing the increase in solar energetic particles during solar particle events. SEP = solar energetic particle, GCR = galactic cosmic ray.)
• 18:57, 17 February 2024 Lwcamp talk contribs created page File:Cosmic ray flux versus particle energy.svg (By Sven Lafebre - own work, after Swordy[1] and De Angelis[2], CC BY-SA 2.5, https://commons.wikimedia.org/w/index.php?curid=1555202)
• 18:57, 17 February 2024 Lwcamp talk contribs uploaded File:Cosmic ray flux versus particle energy.svg (By Sven Lafebre - own work, after Swordy[1] and De Angelis[2], CC BY-SA 2.5, https://commons.wikimedia.org/w/index.php?curid=1555202)
• 11:04, 17 February 2024 Lwcamp talk contribs created page Space Radiation (Created page with "{{PageConstructionNotice}} Space is trying to kill you. It tries to kill you in many different ways. One of those ways is to flood itself with dangerous radiation that can...")
• 09:11, 9 October 2023 Tshhmon talk contribs created page Article Ideas (Created page with "A list of articles to be written for Galactic Library. <div style="float:right; clear:both; margin-left:0.5em;">__TOC__</div> = Life = ==(Article) Fermi Paradox== List propose...")
• 08:11, 9 October 2023 Tshhmon talk contribs created page File:ZerraspaceProposalchart.png
• 08:11, 9 October 2023 Tshhmon talk contribs uploaded File:ZerraspaceProposalchart.png
• 08:10, 9 October 2023 Tshhmon talk contribs created page File:ExampleAtomicRocketsSpecsTable.png
• 08:10, 9 October 2023 Tshhmon talk contribs uploaded File:ExampleAtomicRocketsSpecsTable.png
• 03:15, 9 October 2023 Tshhmon talk contribs created page The Grand Table of Newtonian Tomfoolery (Created page with "=== Or, the Index of Atomic Rockets engine entries === Category:Meta")
• 10:00, 18 August 2023 Tshhmon talk contribs created page Heat Engines (Created page with "=Why no heat engine can be 100% efficient= This explanation is directly inspired by Veritasium’s video on entropy ([https://www.youtube.com/watch?v=DxL2HoqLbyA||“ The Most...")
• 23:33, 27 July 2023 EntropicCarmine talk contribs created page User:EntropicCarmine (user page creation)
• 08:35, 27 July 2023 Phoenix talk contribs uploaded a new version of File:SimpFixedLeng.png
• 08:25, 27 July 2023 Phoenix talk contribs created page File:SimpFixedLeng.png
• 08:25, 27 July 2023 Phoenix talk contribs uploaded File:SimpFixedLeng.png
• 07:57, 27 July 2023 Phoenix talk contribs created page File:SimpGunExpRatio.png
• 07:57, 27 July 2023 Phoenix talk contribs uploaded File:SimpGunExpRatio.png
• 20:43, 26 July 2023 Lwcamp talk contribs created page File:Photon pack.png
• 20:43, 26 July 2023 Lwcamp talk contribs uploaded File:Photon pack.png
• 01:07, 20 July 2023 Tshhmon talk contribs created page Heat Management (Created page with "{{PageConstructionNotice}} =The cause of it all= =Heat transport= ==Heat pumps== =Heat rejection= ==In atmosphere== ==In space== ===Radiators=== ===Droplet radiators=== ==...")
• 19:27, 16 July 2023 Phoenix talk contribs created page Conventional Guns (Created page Conventional Gun, and testing Wiki-Editor)
• 18:13, 28 June 2023 THESABERLION talk contribs created page File:Spiral trajectory in.png (Diagram showing a solar sail in a spiral trajectory, moving to a lower orbit around the Sun.)
• 18:13, 28 June 2023 THESABERLION talk contribs uploaded File:Spiral trajectory in.png (Diagram showing a solar sail in a spiral trajectory, moving to a lower orbit around the Sun.)
• 18:06, 28 June 2023 THESABERLION talk contribs created page File:Spiral trajectory.png (Diagram showing the trajectory of a sail accelerating in a spiral trajectory outward around the Sun)
• 18:06, 28 June 2023 THESABERLION talk contribs uploaded File:Spiral trajectory.png (Diagram showing the trajectory of a sail accelerating in a spiral trajectory outward around the Sun)
• 12:25, 28 June 2023 THESABERLION talk contribs created page File:Displaced orbit.png (Diagram showing a displaced, non-Keplerian orbit, possible by not only using gravity of the Sun, but also the application of thrust from a thruster or a solar sail.)
• 12:25, 28 June 2023 THESABERLION talk contribs uploaded File:Displaced orbit.png (Diagram showing a displaced, non-Keplerian orbit, possible by not only using gravity of the Sun, but also the application of thrust from a thruster or a solar sail.)
• 18:28, 23 April 2023 THESABERLION talk contribs created page File:Heliogyro control.jpg (Diagram showing how a Heliogyro can maneuver by controling the collective and cyclic pitch of its blades.)
• 18:28, 23 April 2023 THESABERLION talk contribs uploaded File:Heliogyro control.jpg (Diagram showing how a Heliogyro can maneuver by controling the collective and cyclic pitch of its blades.)
• 18:21, 23 April 2023 THESABERLION talk contribs created page File:Helios.jpg (HELIOS deployment sequence. After detumble, acquisition and orientation to the sun, blade reels are released via a burn wire. Deployment is actuated by springs. Tensioned cables connect the deployed truss to the central spacecraft bus. Once the blade truss is deployed magnetic coils are used to spin up the core spacecraft to the nominal pre-blade deployment spin rate. After a systems checkout, a synchronized, controlled blade deployment is intiated. The blade camera mast is deployed at an int...)
• 18:21, 23 April 2023 THESABERLION talk contribs uploaded File:Helios.jpg (HELIOS deployment sequence. After detumble, acquisition and orientation to the sun, blade reels are released via a burn wire. Deployment is actuated by springs. Tensioned cables connect the deployed truss to the central spacecraft bus. Once the blade truss is deployed magnetic coils are used to spin up the core spacecraft to the nominal pre-blade deployment spin rate. After a systems checkout, a synchronized, controlled blade deployment is intiated. The blade camera mast is deployed at an int...)
• 18:13, 23 April 2023 THESABERLION talk contribs created page File:Heliogyro halley.jpg (The heliogyro solar sail concept with 12 spinning blades that were each four miles long. Here, the spacecraft approaches Halley’s Comet.)
• 18:13, 23 April 2023 THESABERLION talk contribs uploaded File:Heliogyro halley.jpg (The heliogyro solar sail concept with 12 spinning blades that were each four miles long. Here, the spacecraft approaches Halley’s Comet.)