Statements (451)
Predicate | Object |
---|---|
gptkbp:instance_of |
gptkb:spacecraft
|
gptkbp:bfsLayer |
2
|
gptkbp:bfsParent |
gptkb:award
|
gptkbp:air_date |
March 5, 1979
|
gptkbp:aired_on |
gptkb:Jupiter
gptkb:award gptkb:1980 |
gptkbp:can_be |
scientific instruments for data collection
a message for extraterrestrial life |
gptkbp:collaborations |
involves multiple research institutions
|
gptkbp:communication |
gptkb:NASA's_Deep_Space_Network
gptkb:physicist gptkb:Pale_Blue_Dot_photograph gptkb:golden_record gptkb:NASA gptkb:NASA's_Jet_Propulsion_Laboratory gptkb:Golden_Record scientific data radio signals uses the Deep Space Network images of Jupiter low data rate continues to send data back to Earth 1.5 kilobits per second via the Deep Space Network continues to send data data about cosmic rays data about magnetic fields data about plasma waves data about the interstellar medium scientific data about space data about Jupiter's atmosphere data about Jupiter's magnetic field still transmitting data over 22.5 billion kilometers |
gptkbp:constructed_in |
gptkb:Jet_Propulsion_Laboratory
|
gptkbp:contact |
2023-01-01
August 2023 |
gptkbp:contributed_to |
our understanding of the solar system
our understanding of interstellar space |
gptkbp:contribution |
provided detailed images of Saturn's rings
detected the heliopause discovered active volcanoes on Io discovered rings around Jupiter influenced future space missions inspired public interest in space exploration data on magnetic fields provided insights into the solar wind provided data on solar wind insights into cosmic rays data on cosmic rays data on solar wind contributed to understanding of cosmic rays insights into planetary atmospheres contributed to the understanding of planetary atmospheres insights into magnetic fields data on planetary atmospheres mapped the magnetic fields of Jupiter and Saturn provided evidence of the solar wind's interaction with interstellar space provided a legacy for future generations of scientists analyzed the composition of interstellar particles helped define the boundary of the solar system helped in the search for extraterrestrial life mapped the structure of the heliosphere observed the atmosphere of Titan provided data on Saturn's moons studied the magnetic field of the heliosphere studied the solar magnetic field provided data on the temperature of interstellar space demonstrated the capabilities of robotic spacecraft provided insights into the formation of the solar system insights into the heliosphere images of Jupiter and Saturn discovered the heliosphere's boundary mapped the magnetic field of the heliosphere studied cosmic rays in interstellar space |
gptkbp:crosses |
August 25, 2012
in August 2012 |
gptkbp:cultural_impact |
gptkb:Golden_Record
featured in documentaries influenced popular culture featured in documentaries and films inspired interest in space exploration subject of books subject of books and articles symbol of human curiosity part of the Golden Record project inspired scientific curiosity represents technological achievement |
gptkbp:cultural_significance |
symbol of human exploration
|
gptkbp:data_type |
digital
|
gptkbp:data_usage |
gptkb:NASA's_Deep_Space_Network
160 bits per second approximately 8.4 G Hz |
gptkbp:diameter |
3.7 meters
|
gptkbp:discovered_by |
gptkb:Jupiter's_moons
gptkb:Saturn's_rings gptkb:interstellar_medium gptkb:Jupiter's_rings provided detailed images of Saturn's rings detected the heliopause provided data on solar wind detected cosmic rays from outside the solar system active volcanoes on Io discovered new moons of Jupiter atmospheric details of Saturn provided data on the temperature of interstellar space provided insights into the formation of the solar system discovered the presence of a magnetic field around Jupiter detected the effects of solar activity on interstellar space detected energetic particles in interstellar space detected lightning on Jupiter found evidence of a thin atmosphere on Titan provided insights into the structure of Saturn's rings mapped the magnetic field of Jupiter observed the Great Red Spot on Jupiter provided data on cosmic rays in interstellar space mapped the solar system's boundary with interstellar space studied the atmosphere of Titan observed the solar wind's interaction with the interstellar medium provided insights into the composition of the heliosphere detected the presence of hydrogen in interstellar space detected the presence of dust in interstellar space magnetic field of Jupiter cosmic rays from outside the solar system heliosphere boundary interstellar medium properties new moons of Jupiter new rings of Saturn detected the presence of organic molecules on Titan detected the presence of a magnetic field around Ganymede detected the presence of a thin atmosphere on Enceladus detected interstellar plasma waves detected the atmosphere of Titan detected the magnetic field of Jupiter detected the presence of ice geysers on Enceladus detected the presence of methane on Titan discovered the rings of Jupiter mapped the atmosphere of Saturn mapped the magnetic field of Saturn mapped the surface features of Titan. observed the auroras on Jupiter observed the dynamics of Saturn's atmosphere observed the surface of Ganymede provided data on the temperature of Saturn's rings provided evidence of water ice on Europa studied the heliosphere provided insights into the structure of the solar system discovered the heliosphere boundary first detailed images of Jupiter first detailed images of Saturn |
gptkbp:distance |
over 14 billion miles
|
gptkbp:duration |
over 22 hours
over 22 hours to send signals to Earth |
gptkbp:end_date |
gptkb:2023
August 25, 2012 April 10, 2023 |
gptkbp:famous_for |
gptkb:Golden_Record
first human-made object to enter interstellar space being the first human-made object to enter interstellar space Interstellar space exploration |
gptkbp:first_appearance |
gptkb:Jupiter's_auroras
Jupiter's atmospheric bands Jupiter's intense radiation belts Jupiter's lightning storms Jupiter's strong magnetic field |
gptkbp:first_introduced |
enter interstellar space
to enter interstellar space |
gptkbp:frequency |
227.1 M Hz
|
gptkbp:future_plans |
continue sending data until 2025 or beyond
continue sending data until 2025 continue transmitting data until 2025 towards the constellation Ophiuchus eventually lose power and cease operations monitor cosmic rays and interstellar medium continue to send data until 2025 or beyond |
gptkbp:has |
gptkb:a_golden_record
over 14 billion miles a mass of 722 kilograms a scientific legacy a speed of 61,155 km/h a trajectory towards the constellation Ophiuchus a unique trajectory through the solar system backup computer system the expected mission duration a cosmic ray detector a plasma wave instrument faster than Voyager 2 |
gptkbp:has_influence_on |
gptkb:future_space_missions
|
gptkbp:has_mission |
search for extraterrestrial life
study the outer planets study planetary rings map the magnetic fields of planets study the heliosphere explore the solar system investigate planetary atmospheres conduct interstellar research send back data to Earth study the moons of the outer planets understand the solar wind |
gptkbp:has_part |
gptkb:Golden_Record
|
gptkbp:height |
2.1 meters
2.2 meters about 2.1 meters |
gptkbp:highest_point |
gptkb:theorem
from Earth |
https://www.w3.org/2000/01/rdf-schema#label |
Voyager 1
|
gptkbp:image |
gptkb:physicist
|
gptkbp:impact |
significant contributions to planetary science
|
gptkbp:influenced |
future missions to outer planets
|
gptkbp:instrument |
gptkb:musician
gptkb:Cosmic_Ray_Subsystem gptkb:Photographer gptkb:video_game gptkb:Imaging_Science_System gptkb:Golden_Record gptkb:Voyager_Golden_Record spectrometers Imaging Science Subsystem magnetometers photopolarimeter ultraviolet spectrometer Cosmic Ray System plasma detectors imaging science system plasma wave instrument Low-Energy Charged Particle Instrument cosmic ray detectors plasma wave experiment dust detector imaging science experiment imaging science subsystem cosmic ray system low-energy charged particle instrument cosmic ray telescope infrared interferometer spectrometer plasma science instrument radio science system cosmic ray instrument high-energy charged particle instrument infrared interstellar medium instrument Radio Science charged particle instrument photopolarimeter experiment Infrared Interferometer Spectrometer Photopolarimeter System Plasma Science Experiment charged particle experiment cosmic ray experiment high-energy particle instrument infrared experiment infrared interstellar medium experiment magnetometer experiment ultraviolet spectrometer experiment photopolarimeter system |
gptkbp:is |
still operational
a part of the Voyager program a pioneer in space exploration a symbol of human ingenuity a testament to human exploration the farthest human-made object from Earth |
gptkbp:is_a |
gptkb:spacecraft
|
gptkbp:is_a_destination_for |
gptkb:Jupiter
gptkb:award gptkb:interstellar_medium interstellar space |
gptkbp:is_considered |
a significant achievement in space exploration
|
gptkbp:is_considered_as |
the farthest human-made object from Earth
|
gptkbp:is_designed_for |
long-term space travel
|
gptkbp:is_equipped_with |
gptkb:musician
advanced scientific instruments a high-gain antenna a backup computer system |
gptkbp:is_expected_to |
continue transmitting until 2025
|
gptkbp:is_explored_in |
the atmosphere of Saturn
the magnetic field of Jupiter |
gptkbp:is_monitored_by |
gptkb:NASA's_Jet_Propulsion_Laboratory
|
gptkbp:is_part_of |
gptkb:Voyager_program
gptkb:NASA's_Voyager_program the Golden Record project |
gptkbp:is_visited_by |
gptkb:the_Kuiper_Belt
the heliopause |
gptkbp:launch_date |
1977-09-05
September 5, 1977 |
gptkbp:launch_site |
gptkb:cape
gptkb:Cape_Canaveral,_Florida gptkb:Cape_Canaveral_Space_Force_Station |
gptkbp:launch_vehicle |
gptkb:Titan_IIIE
|
gptkbp:launched |
gptkb:cape
gptkb:1977 gptkb:Cape_Canaveral_Space_Force_Station gptkb:NASA September 5, 1977 |
gptkbp:legacy |
expanded knowledge of the solar system
provided data for future missions increased understanding of the solar system pioneering deep space exploration contributed to the field of astrophysics data on interstellar medium longest operating spacecraft in history pioneering exploration of the outer solar system pioneered deep space communication techniques |
gptkbp:length |
3.7 meters
about 3.7 meters |
gptkbp:lifespan |
until 2025 or beyond
|
gptkbp:location |
Interstellar space
interstellar space over 14 billion miles from Earth in interstellar space |
gptkbp:manufacturer |
gptkb:NASA
|
gptkbp:mass |
722 kilograms
|
gptkbp:meets |
November 12, 1980
March 5, 1979 |
gptkbp:mission |
gptkb:Voyager_program
gptkb:Voyager_2 active ongoing interstellar exploration not yet determined flyby study the outer planets exploration of the outer planets interplanetary exploration explore the outer solar system Explore the outer planets interplanetary mission first spacecraft to enter interstellar space study of the outer planets interstellar probe study of Jupiter and Saturn 2025 or later flyby of Jupiter flyby of Jupiter and Saturn flyby of Saturn Jupiter and Saturn flybys |
gptkbp:mission_duration |
ongoing
ongoing since 1977 over 46 years |
gptkbp:movement |
heliocentric orbit
constellation Ophiuchus gravity assist from Jupiter |
gptkbp:named_after |
the concept of exploration
the Voyager program |
gptkbp:nearest_city |
August 26, 1981
March 5, 1979 |
gptkbp:notable_achievement |
first human-made object to enter interstellar space
first spacecraft to enter interstellar space longest operating spacecraft in history first to provide close-up images of Jupiter and Saturn part of the Voyager Golden Record initiative contributed to understanding of solar system boundaries first to provide detailed images of Jupiter first to provide detailed images of Saturn |
gptkbp:notable_artists |
gptkb:Pale_Blue_Dot
|
gptkbp:notable_event |
crossed the heliopause in 2012
discovered new moons of Jupiter discovered new rings of Saturn provided detailed images of the planets sent back data on solar system boundaries. sent back data on the atmospheres of planets sent back data on the geology of moons sent back data on the magnetic fields of planets first spacecraft to reach the edge of the solar system crossed heliopause in 2012 |
gptkbp:notable_recordings |
contains sounds and images of life on Earth
contains sounds and images of Earth carries sounds and images of Earth |
gptkbp:notable_work |
provided detailed images of Saturn's rings
detailed images of Saturn's rings discovered active volcanoes on Io discovery of active volcanoes on Io detected a decrease in solar wind density at the heliopause provided insights into the structure of the heliosphere discovered the presence of a magnetic field in interstellar space contributed to understanding of the solar system's boundary observed an increase in cosmic ray intensity at the heliopause |
gptkbp:objective |
interstellar exploration
study the outer planets study planetary atmospheres study planetary rings study the heliosphere study solar wind study cosmic rays study cosmic background radiation study magnetic fields study the solar wind study the interstellar medium study Jupiter and Saturn study the outer solar system |
gptkbp:occurs_in |
gptkb:Jupiter
gptkb:award gptkb:Jupiter's_Great_Red_Spot |
gptkbp:operated_by |
gptkb:NASA
gptkb:NASA's_Jet_Propulsion_Laboratory radioisotope thermoelectric generators nuclear power |
gptkbp:operating_system |
command and data handling system
|
gptkbp:operational_status |
gptkb:theorem
active |
gptkbp:operator |
gptkb:NASA
|
gptkbp:orbital_period |
not applicable
|
gptkbp:part_of |
gptkb:Voyager_program
|
gptkbp:photography |
gptkb:Jupiter
gptkb:award Narrow Angle Camera Wide Angle Camera |
gptkbp:power_output |
radioisotope thermoelectric generators
radioisotope thermoelectric generator |
gptkbp:propulsion |
gptkb:Voyager_2
|
gptkbp:provides |
the first close-up images of Jupiter
data on Jupiter's moons Io, Europa, Ganymede, and Callisto |
gptkbp:provides_information_on |
over 1 million images
continues to send data back to Earth scientific data about solar system over 700 scientific observations over 1 billion bits of data over 700 images of Jupiter |
gptkbp:received |
data back to Earth
numerous awards and recognitions |
gptkbp:receives |
data
|
gptkbp:resolution |
800 x 800 pixels
|
gptkbp:scientific_goals |
study the outer planets
study planetary atmospheres study solar wind study cosmic rays study magnetic fields understand the solar system's outer limits study the atmosphere of Jupiter study the moons of Jupiter and Saturn study the rings of Saturn |
gptkbp:seating_capacity |
825 kg
|
gptkbp:services |
interstellar space
enter interstellar space |
gptkbp:significant_event |
crossed heliopause in August 2012
|
gptkbp:sister_ship |
gptkb:Voyager_2
|
gptkbp:speed |
approximately 38,000 miles per hour
about 38,000 miles per hour |
gptkbp:status |
active
operational interstellar space |
gptkbp:storage |
digital tape recorder
limited onboard memory |
gptkbp:successor |
gptkb:Voyager_2
gptkb:Pioneer_10 |
gptkbp:team |
gptkb:NASA_Jet_Propulsion_Laboratory
|
gptkbp:transmission |
approximately 160 bits per second
|
gptkbp:universe |
August 25, 2012
|
gptkbp:weight |
722 kilograms
about 722 kilograms |
gptkbp:width |
2.7 meters
about 2.7 meters |