Statements (147)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:spacecraft
|
| gptkbp:analysis |
gptkb:Mars_Atmosphere_and_Volatile_Evolutio_N
ongoing |
| gptkbp:budget |
$671 million
|
| gptkbp:collaborative_projects |
gptkb:space_mission
|
| gptkbp:collaborator |
gptkb:Lockheed_Martin
gptkb:University_of_California,_Berkeley gptkb:University_of_Colorado_Boulder gptkb:Arizona_State_University gptkb:NASA_Goddard_Space_Flight_Center international space agencies |
| gptkbp:communication |
gptkb:X-band_radio
X-band |
| gptkbp:community |
planetary scientists
|
| gptkbp:community_engagement |
educational outreach programs
|
| gptkbp:contribution |
investigation of Martian auroras
investigation of Martian radiation environment investigation of Martian volcanic activity study of Martian dust storms study of Martian geology understanding of Martian climate analysis of Martian dust and ice clouds analysis of Martian seasonal changes analysis of Martian seasonal weather patterns examination of Martian ice caps insight into atmospheric loss investigation of Martian moons investigation of Martian temperature variations investigation of Martian weather mapping of Martian surface monitoring of solar activity research on Martian habitability potential research on Martian impact craters research on Martian solar wind interactions research on Martian surface composition research on Martian surface erosion research on Martian water history study of Martian atmospheric composition study of Martian atmospheric dynamics study of Martian atmospheric escape processes study of Martian atmospheric layers study of Martian atmospheric pressure study of Martian surface features study of Martian tectonic activity understanding of Martian climate change understanding of Martian magnetic field |
| gptkbp:cooling_system |
gptkb:shield
|
| gptkbp:data_return |
atmospheric data
|
| gptkbp:data_transmission |
high-speed data transmission
high-rate science data |
| gptkbp:data_type |
spectral data
magnetometer data mass spectrometry data solar wind data atmospheric modeling data |
| gptkbp:data_usage |
up to 1 Mbps
publicly available |
| gptkbp:elevation |
150 km to 6,000 km
|
| gptkbp:entered_orbit_on |
September 21, 2014
|
| gptkbp:funding |
NASA budget
|
| gptkbp:has_airport |
September 21, 2014
|
| https://www.w3.org/2000/01/rdf-schema#label |
MAVEN
|
| gptkbp:impact_on_mars_research |
gptkb:significant
|
| gptkbp:instruments |
gptkb:MAG
gptkb:NGIMS DTE SEP IUVS |
| gptkbp:is_a_destination_for |
gptkb:Mars
|
| gptkbp:launch_date |
November 18, 2013
|
| gptkbp:launch_price |
approximately $500 million
|
| gptkbp:launch_site |
gptkb:Cape_Canaveral_Air_Force_Station
|
| gptkbp:launch_vehicle |
gptkb:Atlas_V_401
|
| gptkbp:launched |
gptkb:NASA
November 18, 2013 |
| gptkbp:mars_orbit_insertion_date |
September 21, 2014
|
| gptkbp:mass |
725 kg
|
| gptkbp:mission |
highly successful
planned for 2025 |
| gptkbp:mission_duration |
one Martian year
1 Martian year (687 Earth days) |
| gptkbp:mission_type |
gptkb:Orbital
|
| gptkbp:notable_work |
magnetic field measurements
climate history of Mars carbon dioxide measurements atmospheric circulation patterns atmospheric pressure variations radiation environment measurements impact of solar activity on atmosphere evidence of atmospheric loss atmospheric escape mechanisms interaction with Martian moons ion escape rates seasonal atmospheric dynamics solar wind impact on atmosphere chemical composition of the atmosphere discovery of methane spikes influence of dust storms on atmosphere reduction of atmospheric pressure seasonal changes in atmospheric composition solar wind stripping effects atmospheric dust effects on solar radiation atmospheric pressure changes over time cloud formation processes dust storms influence on atmosphere effects of Martian seasons on atmospheric behavior effects of solar flares on atmosphere impact of dust on climate impact of seasonal cycles on atmosphere interaction with Martian surface ozone layer presence role of water in atmospheric processes upper atmosphere temperature variations water vapor detection relationship between atmosphere and surface conditions |
| gptkbp:objective |
study the Martian atmosphere
|
| gptkbp:operational_status |
active
|
| gptkbp:operator |
gptkb:NASA
|
| gptkbp:orbit_type |
elliptical orbit
|
| gptkbp:orbital_inclination |
75 degrees
|
| gptkbp:orbital_period |
4.5 hours
|
| gptkbp:power_source |
solar panels
|
| gptkbp:provides_information_on |
publicly available
|
| gptkbp:publications |
numerous peer-reviewed articles
|
| gptkbp:research |
gptkb:2014
September 2014 |
| gptkbp:scientific_goals |
solar wind interactions
climate history of Mars measure solar wind interactions investigate climate history understand atmospheric escape understand atmospheric loss atmospheric escape surface and atmosphere interactions characterize the Martian upper atmosphere determine the history of water on Mars study the interaction of solar wind with Mars |
| gptkbp:status |
operational
|
| gptkbp:team |
gptkb:Bruce_Jakosky
gptkb:Lockheed_Martin gptkb:University_of_Colorado_Boulder gptkb:NASA_Jet_Propulsion_Laboratory gptkb:NASA_Goddard_Space_Flight_Center |
| gptkbp:weight |
about 2,500 kg
|
| gptkbp:bfsParent |
gptkb:The_National_Aeronautics_and_Space_Administration
gptkb:NASA |
| gptkbp:bfsLayer |
3
|