Statements (206)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:spacecraft
|
| gptkbp:bfsLayer |
3
|
| gptkbp:bfsParent |
gptkb:spacecraft
gptkb:radio_station gptkb:NASA |
| gptkbp:analysis |
ongoing
ongoing by scientists |
| gptkbp:atmosphere |
thin atmosphere
|
| gptkbp:average_temperature |
-100 to 20 ° C
-80 ° C (average) up to 40 cm below surface |
| gptkbp:challenges |
dust accumulation on solar panels
extreme temperatures on Mars |
| gptkbp:collaborations |
gptkb:University
gptkb:spacecraft gptkb:French_Space_Agency gptkb:JPL gptkb:German_Aerospace_Center gptkb:German_Aerospace_Center_(DLR) gptkb:NASA_Jet_Propulsion_Laboratory_(JPL) gptkb:French_Space_Agency_(CNES) collaboration with universities with universities |
| gptkbp:collection |
gptkb:2022
November 26, 2018 ongoing November 2018 Mars seismic activity Mars temperature variations Mars atmosphere data Mars core characteristics Mars crust structure |
| gptkbp:communication |
gptkb:physicist
gptkb:Mars_Reconnaissance_Orbiter gptkb:X-band_radio daily to Earth via X-band radio via X-band |
| gptkbp:community_engagement |
gptkb:battle
community events educational outreach educational outreach programs social media updates collaboration with schools live streams of events |
| gptkbp:contribution |
understanding of Mars' geology
contribution to planetary science seismic data analysis analysis of Martian soil monitoring of Martian weather enhancement of Mars exploration technology insight into Mars' tectonic activity investigation of Martian magnetic field measurements of Mars' temperature study of Mars' core |
| gptkbp:court |
static lander
|
| gptkbp:cultural_impact |
inspired public interest in Mars exploration
|
| gptkbp:data_privacy |
gptkb:battle
via NASA's Planetary Data System |
| gptkbp:data_type |
meteorological data
weather data temperature data geological data seismic data atmospheric data geophysical data magnetic field data soil data heat flow data core data |
| gptkbp:data_usage |
for educational purposes
for climate studies for planetary science research for atmospheric studies for geological studies for seismic studies |
| gptkbp:designed_by |
gptkb:NASA
|
| gptkbp:dimensions |
approximately 1.5 m in height
|
| gptkbp:distance |
225 million km (average)
|
| gptkbp:emergency_services |
on Mars since 2012
|
| gptkbp:future_plans |
potential follow-up missions
continued data analysis |
| gptkbp:height |
0.8 meters
0.8 m |
| gptkbp:historical_event |
April 6, 2019
|
| https://www.w3.org/2000/01/rdf-schema#label |
In Sight lander
|
| gptkbp:impact |
gptkb:significant
high September 2021 contributed to planetary science improved understanding of Mars' geology improved understanding of Mars set precedent for lander missions |
| gptkbp:instrument |
gptkb:dinosaur
gptkb:RISE_experiment gptkb:hospital gptkb:video_game gptkb:satellite SEIS heat flow probe weather sensor H P3 |
| gptkbp:is_designed_for |
gptkb:Mars_exploration
|
| gptkbp:is_equipped_with |
gptkb:hospital
heat flow probe |
| gptkbp:landing_site |
gptkb:Elysium_Planitia
November 26, 2018 |
| gptkbp:launch_date |
May 5, 2018
|
| gptkbp:launch_vehicle |
gptkb:Atlas_V_401
|
| gptkbp:launched |
gptkb:NASA
May 5, 2018 |
| gptkbp:legacy |
enhanced understanding of planetary interiors
|
| gptkbp:length |
2.4 m
2.4 meters |
| gptkbp:location |
gptkb:Mars
|
| gptkbp:managed_by |
gptkb:Jet_Propulsion_Laboratory
|
| gptkbp:mass |
0.38 g
360 kg |
| gptkbp:max_takeoff_weight |
gptkb:Mars
soft landing using retrorockets |
| gptkbp:mission |
gptkb:Jet_Propulsion_Laboratory
gptkb:spacecraft gptkb:Mars_exploration gptkb:none gptkb:2022 gptkb:battle gptkb:Mars_Sample_Return multinational team geophysical research successful landing 2022 (expected) study Martian geology and weather investigate seismic activity part of NASA's Discovery Program study planetary formation understand Mars' geology data on Martian weather patterns harsh Martian conditions geophysical to study seismic activity on Mars detailed temperature profile of Mars first seismic measurements on Mars to study Mars' geology |
| gptkbp:mission_duration |
24.6 hours
2 Earth years approximately 2 Earth years two Earth years |
| gptkbp:network |
gptkb:Mars_seismic_network
|
| gptkbp:objective |
study the interior of Mars
|
| gptkbp:operated_by |
gptkb:NASA
|
| gptkbp:operational_area |
gptkb:NASA's_Jet_Propulsion_Laboratory
Martian surface based at NASA's Jet Propulsion Laboratory |
| gptkbp:operational_status |
active
November 26, 2018 |
| gptkbp:photography |
gptkb:Thermal_Imaging_Camera
Color Camera Instrument Context Camera Surface Stereo Imager |
| gptkbp:power_output |
solar panels
|
| gptkbp:provides_information_on |
gptkb:international_collaboration
international scientific community open access with international partners |
| gptkbp:publishes |
numerous
peer-reviewed journals scientific reports numerous peer-reviewed articles |
| gptkbp:receives_funding_from |
gptkb:National_Science_Foundation_(NSF)
gptkb:French_government gptkb:German_government gptkb:European_Space_Agency_(ESA) gptkb:NASA NASA budget |
| gptkbp:resolution |
high-resolution images
|
| gptkbp:scientific_goals |
determine the planet's temperature
measure seismic activity investigate tectonic activity study the planet's core monitor seasonal changes determine heat flow contribute to planetary science. study meteorite impacts analyze Martian soil study Mars' interior investigate the core of Mars study the Martian crust understand the formation of Mars determine seismic activity map the Martian crust measure heat flow understand Mars' formation understand Mars' magnetic field |
| gptkbp:services |
to study Mars' interior
|
| gptkbp:significant_event |
over 1,300
April 2019 |
| gptkbp:successor |
gptkb:Phoenix_lander
|
| gptkbp:surface |
solid surface
0.6 k Pa (average) |
| gptkbp:team |
scientists and engineers
|
| gptkbp:weight |
approximately 800 kg
360 kg 360 kilograms |
| gptkbp:width |
2.4 m
2.4 meters |