Search Results
Showing 41-60 of about 2734 results.
Aerodynamic Roughness Height of Gravel-Covered Plains in the Puna of Argentina: article and datasetDOI: info:10.5281/ZENODO.7574372v. 4
Zimbelman, James, Spagnuolo, Mauro, and de Silva, Shanaka. 2023. "Aerodynamic Roughness Height of Gravel-Covered Plains in the Puna of Argentina: article and dataset." The Planetary Science Journal, 4. https://doi.org/10.5281/ZENODO.7574372.
Aerodynamic Roughness Height of Gravel-covered Plains in the Puna of ArgentinaDOI: info:10.3847/PSJ/accdd9v. 4No. 6102
Zimbelman, James R., Spagnuolo, Mauro G., and de Silva, Shanaka L. 2023. "Aerodynamic Roughness Height of Gravel-covered Plains in the Puna of Argentina." The Planetary Science Journal, 4, (6) 102. https://doi.org/10.3847/PSJ/accdd9.
The Wind and Beyond, Volume III: Other Paths, Other FlywaysGovernment Printing Office,910
Hansen, James R. and Kinney, Jeremy R., editors. 2022. The Wind and Beyond, Volume III: Other Paths, Other Flyways. Washington, DC: Government Printing Office,. In The NASA History Series.
The morphometry of small impact craters on Bennu: Relationships to geologic units, boulders, and impact armoringDOI: info:10.1016/j.icarus.2022.115058
Daly, R. T., Barnouin, Olivier S., Bierhaus, Edward B., Daly, Michael G., Seabrook, Jeffrey A., Ballouz, Ronald L., Nair, Hari, Espiritu, Raymond C., Jawin, Erica R., Trang, David, DellaGuistina, Daniella N., Burke, Keara N., Brodbeck, Juliette I., and Walsh, Kevin J. 2022. "The morphometry of small impact craters on Bennu: Relationships to geologic units, boulders, and impact armoring." Icarus, https://doi.org/10.1016/j.icarus.2022.115058.
Far Beyond the Moon: A History of Life Support Systems in the Space AgeDOI: info:10.1353/tech.2022.0045v. 63No. 1Johns Hopkins University Press302–304
Bimm, Jordan. 2022. [Book review] "Far Beyond the Moon: A History of Life Support Systems in the Space Age." Technology and Culture, 63, (1), 302–304. https://doi.org/10.1353/tech.2022.0045.
Campbell, Bruce A. and Campbell, Donald B. 2022. "Arecibo Radar Maps of Venus from 1988 to 2020." The Planetary Science Journal, 3, (3) 55. https://doi.org/10.3847/PSJ/ac4f43.
Garvin, James B., Getty, Stephanie A., Arney, Giada N., Johnson, Natasha M., Kohler, Erika, Schwer, Kenneth O., Sekerak, Michael, Bartels, Arlin, Saylor, Richard S., Elliott, Vincent E., Goodloe, Colby S., Garrison, Matthew B., Cottini, Valeria, Izenberg, Noam, Lorenz, Ralph, Malespin, Charles A., Ravine, Michael, Webster, Christopher R., Atkinson, David H., Aslam, Shahid, Atreya, Sushil, Bos, Brent J., Brinckerhoff, William B., Campbell, Bruce A., Crisp, David et al. 2022. "Revealing the Mysteries of Venus: The DAVINCI Mission." The Planetary Science Journal, 3, (5) 117. https://doi.org/10.3847/PSJ/ac63c2.
Comparable Bulk Radar Attenuation Characteristics Across Both Martian Polar Layered DepositsDOI: info:10.1029/2022JE007566v. 127No. 11
Abu Hashmeh, N., Whitten, J. L., Russell, A. T., Putzig, N. E., and Campbell, Bruce A. 2022. "Comparable Bulk Radar Attenuation Characteristics Across Both Martian Polar Layered Deposits." Journal of Geophysical Research: Planets, 127, (11). https://doi.org/10.1029/2022JE007566.
Roughness Variations in Venus Tesserae: Influence of Crater Ejecta and Inherent Differences in Surface MorphologyDOI: info:10.1002/essoar.10510714.1
Whitten, Jennifer and Campbell, Bruce A. 2022. "Roughness Variations in Venus Tesserae: Influence of Crater Ejecta and Inherent Differences in Surface Morphology." Geophysical Research Letters, https://doi.org/10.1002/essoar.10510714.1.
Crater Ejecta Across Maxwell Montes, Venus, and Possible Effects on Future Rock Type MeasurementsDOI: info:10.1029/2021GL096446v. 49No. 9American Geophysical Union
Campbell, Bruce A. and Whitten, Jennifer L. 2022. "Crater Ejecta Across Maxwell Montes, Venus, and Possible Effects on Future Rock Type Measurements." Geophysical Research Letters, 49, (9). https://doi.org/10.1029/2021GL096446.
The lateral continuity and vertical arrangement of dust layers in the martian north polar cap from SHARAD multiband dataDOI: info:10.1029/2022GL099896v. 49No. 17American Geophysical Union
Jawin, Erica R., Campbell, Bruce A., Whitten, Jennifer L., and Morgan, Gareth A. 2022. "The lateral continuity and vertical arrangement of dust layers in the martian north polar cap from SHARAD multiband data." Geophysical Research Letters, 49, (17). https://doi.org/10.1029/2022GL099896.
Near-zero cohesion and loose packing of Bennu's near subsurface revealed by spacecraft contactDOI: info:10.1126/sciadv.abm6229v. 8No. 27
Walsh, Kevin J., Ballouz, Ronald-Louis, Jawin, Erica R., Avdellidou, Chrysa, Barnouin, Olivier S., Bennett, Carina A., Bierhaus, Edward B., Bos, Brent J., Cambioni, Saverio, Connolly, Harold C., Delbo, Marco, DellaGiustina, Daniella N., DeMartini, Joseph, Emery, Joshua P., Golish, Dathon R., Haas, Patrick C., Hergenrother, Carl W., Ma, Huikang, Michel, Patrick, Nolan, Michael C., Olds, Ryan, Rozitis, Benjamin, Richardson, Derek C., Rizk, Bashar, Ryan, Andrew J. et al. 2022. "Near-zero cohesion and loose packing of Bennu's near subsurface revealed by spacecraft contact." Science Advances, 8, (27). https://doi.org/10.1126/sciadv.abm6229.
Degradation at the , Mars: Constraints From Rock Heights and ShapesDOI: info:10.1029/2021EA001953v. 9No. 2
Grant, John A., Wilson, S. A., Golombek, M. P., Trussell, A., Warner, N. H., Williams, N., Weitz, C. M., Abarca, H., and Deen, R. 2022. "Degradation at the InSight Landing Site, Homestead Hollow , Mars: Constraints From Rock Heights and Shapes." Earth and Space Science, 9, (2). https://doi.org/10.1029/2021EA001953.
The Physical Properties and Geochemistry of Grains on Aeolian Bedforms at Gale Crater, MarsDOI: info:10.1029/2021JE007061v. 127No. 11American Geophysical Union
Weitz, Catherine M., O'Connell-Cooper, Catherine, Thompson, Lucy, Sullivan, Robert J., Baker, Mariah, and Grant, John A. 2022. "The Physical Properties and Geochemistry of Grains on Aeolian Bedforms at Gale Crater, Mars." Journal of Geophysical Research-Planets, 127, (11). https://doi.org/10.1029/2021JE007061.
A Review of Treatments of Magnesium Alloy Objects at the National Air and Space MuseumInternational Council of Museums – Committee for Conservation (ICOM–CC) and The National Museum of Finland56–64
Wilcox, Karen, Sweeney, Meredith, and Horelick, Lauren A. 2022. "A Review of Treatments of Magnesium Alloy Objects at the National Air and Space Museum." from Metal 2022 in International Council of Museums – Committee for Conservation. 56–64. Metal 2022 (Helsinki, Finland) 2022-09-05. International Council of Museums – Committee for Conservation (ICOM–CC) and The National Museum of Finland.
Geospatial data from a global survey of martian fan-shaped sedimentary landformsDOI: info:10.25573/DATA.19952486.V1National Air and Space Museum
Morgan, Alexander M., Purdy, Sharon A., and Howard, Alan D. 2022. [Dataset] Geospatial data from a global survey of martian fan-shaped sedimentary landforms. Distributed by National Air and Space Museum. https://doi.org/10.25573/DATA.19952486.V1.
Geospatial data from a global survey of martian fan-shaped sedimentary landformsDOI: info:10.1016/j.dib.2022.108494v. 44
Morgan, Alexander M., Wilson, Sharon A., and Howard, Alan D. 2022. "Geospatial data from a global survey of martian fan-shaped sedimentary landforms." Data in Brief, 44. https://doi.org/10.1016/j.dib.2022.108494.
Dust, Sand, and Winds Within an Active Martian Storm in Jezero CraterDOI: info:10.1029/2022GL100126v. 49No. 17
Lemmon, M. T., Smith, M. D., Viudez‐Moreiras, D., de la Torre‐Juarez, M., Vicente‐Retortillo, A., Munguira, A., Sanchez‐Lavega, A., Hueso, R., Martinez, G., Chide, B., Sullivan, R., Toledo, D., Tamppari, L., Bertrand, T., Bell, J. F., Newman, C., Baker, Mariah, Banfield, D., Rodriguez‐Manfredi, J. A., Maki, J. N., and Apestigue, V. 2022. "Dust, Sand, and Winds Within an Active Martian Storm in Jezero Crater." Geophysical Research Letters, 49, (17). https://doi.org/10.1029/2022GL100126.
Roscoe Turner and Gilmore the Flying LionSmithsonian National Air and Space Museum
Changing spatial distribution of water flow charts major change in Mars's greenhouse effectDOI: info:10.1126/sciadv.abo5894v. 8No. 21American Association for the Advancement of Science
Kite, Edwin S., Mischna, Michael A., Fan, Bowen, Morgan, Alexander M., Wilson, Sharon A., and Richardson, Mark, I. 2022. "Changing spatial distribution of water flow charts major change in Mars's greenhouse effect." Science Advances, 8, (21). https://doi.org/10.1126/sciadv.abo5894.
Type: blog
Keywords: NASM-Aeronautics; NASM