Mars Curiosity rover

URI: https://gptkb.org/entity/Mars_Curiosity_rover

GPTKB entity

Statements (60)

Predicate	Object
gptkbp:instance_of	gptkb:robot
gptkbp:communication	UHF radio
gptkbp:designed_by	gptkb:NASA
https://www.w3.org/2000/01/rdf-schema#label	Mars Curiosity rover
gptkbp:instrument	gptkb:Rover_Environmental_Monitoring_Station gptkb:Alpha_Particle_X-ray_Spectrometer gptkb:Chem_Cam gptkb:Mars_Hand_Lens_Imager gptkb:Radiation_Assessment_Detector Sample Analysis at Mars Chemistry and Mineralogy Dynamic Albedo of Neutrons Rover Atmospheric Measurement Instrumentation
gptkbp:launched	November 26, 2011
gptkbp:max_takeoff_weight	August 6, 2012
gptkbp:mission	gptkb:spacecraft
gptkbp:mission_duration	over 10 years
gptkbp:navigation_system	autonomous navigation
gptkbp:objective	search for signs of past life
gptkbp:operates	gptkb:Mars
gptkbp:photography	gptkb:Mast_Cam
gptkbp:power_output	nuclear
gptkbp:scientific_goals	map Martian surface search for water study Martian geology characterize the Martian environment analyze soil samples study impact craters study volcanic activity assess climate and weather monitor seasonal changes test new technology analyze organic compounds collect data for future missions investigate ancient riverbeds investigate potential for past life analyze mineralogy study Martian rocks study the history of water on Mars study Martian climate history analyze atmospheric dust analyze surface chemistry analyze the composition of Martian atmosphere determine habitability of Mars examine sedimentary features investigate ancient environments investigate methane levels investigate the presence of perchlorates study dust and regolith study polar regions study radiation levels study the Martian dust cycle study the effects of radiation on materials understand Martian atmosphere investigate the potential for future human exploration.
gptkbp:status	operational
gptkbp:transportation	six wheels
gptkbp:weight	899 kilograms
gptkbp:bfsParent	gptkb:Mars_Perseverance_rover
gptkbp:bfsLayer	4