Difference between revisions of "Needed Articles"
m (→Mars Spacecraft/Robotic Missions: Adjusted format for consistency with existing content.) |
m (Typo correction) |
||
Line 28: | Line 28: | ||
==Mars Spacecraft/Robotic Missions== | ==Mars Spacecraft/Robotic Missions== | ||
− | * Mars Spacecraft/Robotic Missions. An overview which could cover: | + | *Mars Spacecraft/Robotic Missions. An overview which could cover: |
− | ** explanation of the general utility of unmanned missions. | + | **explanation of the general utility of unmanned missions. |
− | ** overview of scientific data collection, transmission, and interpretation | + | **overview of scientific data collection, transmission, and interpretation |
− | ** examples of current and planned instruments | + | **examples of current and planned instruments |
− | ** comparison of orbital vs lander vs robotic mission types | + | **comparison of orbital vs lander vs robotic mission types |
− | * Search for life: the search for past or present life on Mars, which could cover topics such as: the 'follow the water' strategy, the subsurface search strategy, instruments that can be used on-site, and DNA/RNA analysis chips. | + | *Search for life: the search for past or present life on Mars, which could cover topics such as: the 'follow the water' strategy, the subsurface search strategy, instruments that can be used on-site, and DNA/RNA analysis chips. |
− | * Spectrography for resource mapping: resolution of spectrographic images and multispectral identification of minerals. | + | *Spectrography for resource mapping: resolution of spectrographic images and multispectral identification of minerals. |
− | * Multimission timelines and sequences. | + | *Multimission timelines and sequences. |
− | * Orbital mechanics, which could cover Hohmann transfer orbits (existing information on the Orbits page under Planetary Sciences could be moved here) and aerocapture orbits. | + | *Orbital mechanics, which could cover Hohmann transfer orbits (existing information on the Orbits page under Planetary Sciences could be moved here) and aerocapture orbits. |
− | * Earth-Mars cyclers | + | *Earth-Mars cyclers |
− | * Propulsion: could include sections on chemical propellants, nuclear thermal rockets, and ion propulsion. | + | *Propulsion: could include sections on chemical propellants, nuclear thermal rockets, and ion propulsion. |
− | * Power systems: nuclear power, solar mirrors, solar PE systems, and wind power (surface and aloft). | + | *Power systems: nuclear power, solar mirrors, solar PE systems, and wind power (surface and aloft). |
− | * Communication: Mars-to-Earth communication systems, equitorial stationary satellites, and GPS-like systems, laser systems. | + | *Communication: Mars-to-Earth communication systems, equitorial stationary satellites, and GPS-like systems, laser systems. |
− | * Instruments: for example, miniaturized chemical/molecular ID systems. | + | *Instruments: for example, miniaturized chemical/molecular ID systems. |
− | * Emerging technologies: for example, advanced sensing, AI autonomy, 3D printing of complex geometries, self-replicating macines, | + | *Emerging technologies: for example, advanced sensing, AI autonomy, 3D printing of complex geometries, self-replicating macines, hybrid machine-enhanced biologics. |
− | * Exploration missions: master list organized chronologically and noting key instruments. | + | *Exploration missions: master list organized chronologically and noting key instruments. |
− | * Orbital missions: overview including highlights of imagery, spectroscopy, and communications capabilities. | + | *Orbital missions: overview including highlights of imagery, spectroscopy, and communications capabilities. |
− | * Lander missions: overview including atmospheric seasonal measurements, subsurface drilling and chemical analysis, and planned missions. | + | *Lander missions: overview including atmospheric seasonal measurements, subsurface drilling and chemical analysis, and planned missions. |
− | * Robotic exploration: overview including discussion of degrees of autonomy, power source options (solar vs RTG), and regolith sampling and analysis. | + | *Robotic exploration: overview including discussion of degrees of autonomy, power source options (solar vs RTG), and regolith sampling and analysis. |
==Mars Human Exploration== | ==Mars Human Exploration== |
Revision as of 11:48, 25 June 2019
This is the global collection of articles that are needed by Marspedia and shall be a guide for authors, who want to start new articles without knowing which direction to go.
Contents
Mars Planetary Science
- List of Mars Calendars
- List of Mars Meteorites on Earth (including Age and Minerology Type)
- Observing Mars with a Telescope
- Mars' Orbital Position
- The Goldilocks Zone
- Telling Time on Mars
- What are the different topologies on Mars?
- Global dust storms
- Dust devils
- Upper atmosphere chemical processes
- What do the differences in gravity show us?
- Reflectance and emission spectroscopy
- Mineral identification from satellite, balloon, and aircraft carried instruments
- Multispectral and thermal infrared imaging
- Geological processes that have shaped Mars
- What minerals could be mined on Mars?
- Mineral spatial distribution
- Subsurface water or ice deposits
- Surface ice at poles
- Glaciers
Mars Spacecraft/Robotic Missions
- Mars Spacecraft/Robotic Missions. An overview which could cover:
- explanation of the general utility of unmanned missions.
- overview of scientific data collection, transmission, and interpretation
- examples of current and planned instruments
- comparison of orbital vs lander vs robotic mission types
- Search for life: the search for past or present life on Mars, which could cover topics such as: the 'follow the water' strategy, the subsurface search strategy, instruments that can be used on-site, and DNA/RNA analysis chips.
- Spectrography for resource mapping: resolution of spectrographic images and multispectral identification of minerals.
- Multimission timelines and sequences.
- Orbital mechanics, which could cover Hohmann transfer orbits (existing information on the Orbits page under Planetary Sciences could be moved here) and aerocapture orbits.
- Earth-Mars cyclers
- Propulsion: could include sections on chemical propellants, nuclear thermal rockets, and ion propulsion.
- Power systems: nuclear power, solar mirrors, solar PE systems, and wind power (surface and aloft).
- Communication: Mars-to-Earth communication systems, equitorial stationary satellites, and GPS-like systems, laser systems.
- Instruments: for example, miniaturized chemical/molecular ID systems.
- Emerging technologies: for example, advanced sensing, AI autonomy, 3D printing of complex geometries, self-replicating macines, hybrid machine-enhanced biologics.
- Exploration missions: master list organized chronologically and noting key instruments.
- Orbital missions: overview including highlights of imagery, spectroscopy, and communications capabilities.
- Lander missions: overview including atmospheric seasonal measurements, subsurface drilling and chemical analysis, and planned missions.
- Robotic exploration: overview including discussion of degrees of autonomy, power source options (solar vs RTG), and regolith sampling and analysis.
Mars Human Exploration
Mars Human Settlement
Mars Outreach
Mars Arts and Literature
- chronology of Mars Science Fiction
- lists of Mars Science Fiction by plot-line focus
- List of Plays
- List of Movies
- List of Documentaries
- List of TV Series
- List of Science Fiction Movies
- List of Music
- List of Computer Games
- List of Board Games