Statements (360)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:planet
gptkb:spacecraft gptkb:island |
| gptkbp:administrative_division |
gptkb:Aswan
|
| gptkbp:architectural_style |
gptkb:historical_figure
|
| gptkbp:artifacts |
gptkb:award
gptkb:archaeological_site temple reliefs sarcophagi ancient statues |
| gptkbp:associated_with |
gptkb:Isis
gptkb:Person gptkb:Osiris |
| gptkbp:average_temperature |
-50 to -200 degrees Celsius
|
| gptkbp:climate |
hot desert climate
|
| gptkbp:collaborations |
international space agencies
international team |
| gptkbp:collection |
temperature measurements
environmental data thermal properties photometric data over 1000 images spectral data radiation measurements magnetic field measurements isotope ratios surface roughness measurements dust particle analysis volatiles analysis surface temperature variations surface morphology data surface albedo measurements cometary activity observations cometary dust composition organic compounds detection thermal inertia measurements cometary nucleus structure cometary evolution models cometary nucleus density density measurements surface interaction studies chemical composition of ices chemical weathering effects cometary outgassing observations dust grain size distribution gas composition analysis gas escape rates impact experiments seismic activity measurements subsurface analysis surface hardness measurements various chemical analyses |
| gptkbp:communication |
gptkb:Rosetta_orbiter
gptkb:X-band_radio successful telemetry in June 2015 interrupted after landing via Rosetta via Rosetta orbiter |
| gptkbp:community_engagement |
increased awareness of space missions
|
| gptkbp:conservation_efforts |
gptkb:government_of_Egypt
|
| gptkbp:contains |
gptkb:historical_figure
|
| gptkbp:contribution |
provided data for future missions
enhanced understanding of comets surface analysis of comet |
| gptkbp:cultural_heritage |
gptkb:battle
|
| gptkbp:cultural_impact |
Nubian culture
featured in documentaries inspired educational programs captured public imagination |
| gptkbp:cultural_significance |
gptkb:trail
gptkb:festival gptkb:award gptkb:historical_narratives gptkb:international_collaboration gptkb:mythological_figure gptkb:artwork gptkb:organization ceremonies tourism development heritage preservation archaeological research sacred geography educational value Nile River civilization |
| gptkbp:date |
November 12, 2014
|
| gptkbp:design |
gptkb:planet
|
| gptkbp:designed_by |
gptkb:spacecraft
|
| gptkbp:dimensions |
1 meter x 1 meter x 0.8 meter
|
| gptkbp:discovered_by |
gptkb:archaeological_site
magnetic field temperature variations water ice organic molecules cometary activity atmospheric data gas emissions carbon compounds surface hardness dust composition cometary surface composition |
| gptkbp:distance |
over 6 billion kilometers
|
| gptkbp:emergency_services |
on a comet
|
| gptkbp:end_date |
July 2015
|
| gptkbp:features |
gptkb:lake
gptkb:Temple_of_Hathor gptkb:Temple_of_Isis gptkb:physicist gptkb:Temple_of_Augustus obelisks hieroglyphs |
| gptkbp:first_flight |
gptkb:theorem
November 12, 2014 |
| gptkbp:geographical_feature |
gptkb:island
rocky terrain |
| gptkbp:historical_event |
temple relocation
flooding due to Aswan Dam |
| gptkbp:historical_period |
gptkb:Ptolemaic_period
Roman period |
| gptkbp:historical_significance |
gptkb:historical_figure
Ancient Egyptian religion |
| gptkbp:historical_site |
gptkb:battle
|
| https://www.w3.org/2000/01/rdf-schema#label |
Philae
|
| gptkbp:impact |
inspired further comet exploration
|
| gptkbp:instrument |
gptkb:Ptolemy
gptkb:APXS gptkb:robot gptkb:ICE CIVA COSAC DFMS MUPUS ROMAP RTOF S D2 CIVA-A CIVA-B CIVA-C CIVA-D CIVA-P MUPUS-1 MUPUS-10 MUPUS-2 MUPUS-3 MUPUS-4 MUPUS-5 MUPUS-6 MUPUS-7 MUPUS-8 MUPUS-9 |
| gptkbp:is_accessible_by |
gptkb:football_club
gptkb:starship |
| gptkbp:is_connected_to |
gptkb:Aswan_Dam
|
| gptkbp:is_divided_into |
gptkb:Rosetta
|
| gptkbp:is_home_to |
gptkb:Isis_Temple
|
| gptkbp:is_known_for |
gptkb:mythological_figure
|
| gptkbp:is_located_near |
gptkb:Aswan
|
| gptkbp:is_part_of |
gptkb:archaeological_site
Nubian heritage |
| gptkbp:is_surrounded_by |
gptkb:Lake_Nasser
|
| gptkbp:is_visited_by |
tourists
|
| gptkbp:known_for |
gptkb:Temple_of_Philae
gptkb:historical_figure |
| gptkbp:landing_site |
gptkb:theorem
gptkb:Comet_67_P/_Churyumov–_Gerasimenko successful November 12, 2014 2014-11-12 low gravity Agilkia 60 hours surface hardness Comet nucleus unexpected bounce first attempt on a comet |
| gptkbp:launch_date |
2014-11-12
March 2, 2004 |
| gptkbp:launched |
gptkb:Rosetta_spacecraft
gptkb:spacecraft gptkb:opera 2014-03-02 |
| gptkbp:legacy |
first data from a comet surface
pioneered comet exploration techniques |
| gptkbp:located_in |
gptkb:historical_figure
|
| gptkbp:max_takeoff_weight |
gptkb:67_P/_Churyumov-Gerasimenko
gptkb:Comet_67_P/_Churyumov–_Gerasimenko gptkb:67_P/_Churyumov–_Gerasimenko gptkb:Comet_67_P/_Churyumov-Gerasimenko harpoon and screws |
| gptkbp:mission |
gptkb:Comet_Interceptor
gptkb:Rosetta comet exploration cometary exploration analyze the surface and subsurface of the comet |
| gptkbp:mission_duration |
approximately 3 months
over 10 years approximately 3 days approximately 3 days on surface |
| gptkbp:notable_achievement |
first spacecraft to land on a comet
|
| gptkbp:notable_work |
comet's activity monitored
comet's gravitational field measured comet's interaction with solar wind studied organic molecules detected chemical composition analyzed comet's contribution to Earth's water studied comet's dust composition analyzed comet's evolution insights gained comet's future trajectory predicted comet's geological features studied comet's historical significance evaluated comet's history inferred comet's impact on planetary science discussed comet's internal structure inferred comet's nucleus structure studied comet's organic chemistry explored comet's outgassing events recorded comet's physical properties measured comet's potential for life studied comet's role in solar system formation analyzed comet's rotation observed comet's seasonal changes observed comet's shape characterized comet's surface activity observed comet's surface changes documented comet's surface chemistry analyzed comet's surface composition characterized comet's surface layering examined comet's surface processes investigated comet's volatile compounds studied density of the comet's surface determined dust particles collected gas emissions analyzed ice and dust composition analyzed impact of solar radiation studied magnetic field measurements conducted subsurface properties investigated surface morphology documented surface properties studied surface texture analyzed temperature measurements taken thermal properties measured |
| gptkbp:objective |
understand solar system formation
investigate potential for life map surface features analyze surface composition study the composition of a comet monitor seasonal changes monitor changes over time measure gravitational field investigate subsurface structure study thermal properties investigate magnetic field analyze surface reflectivity analyze surface morphology search for organic compounds investigate surface temperature variations investigate surface erosion study impact of solar activity analyze dust particles study comet's interaction with solar wind analyze chemical processes analyze dust composition analyze gas composition analyze isotopic ratios analyze thermal inertia analyze volatile compounds collect data on solar wind interaction determine comet's density examine ice composition examine surface layering investigate comet's structure investigate potential for prebiotic chemistry investigate potential for water ice investigate surface chemistry measure physical properties of comet monitor comet's activity study comet's atmosphere study comet's internal structure study comet's magnetic properties study comet's outgassing study comet's rotation study comet's tail formation study cometary evolution study gas emissions study interaction with cosmic rays study interaction with solar radiation study the comet's surface and composition |
| gptkbp:operated_by |
gptkb:spacecraft
gptkb:DLR gptkb:CNES gptkb:Rosetta_mission gptkb:NASA solar panels |
| gptkbp:operates_in |
2015-07-2015
|
| gptkbp:operational_area |
60 hours
November 2014 to July 2015 |
| gptkbp:operational_status |
completed
inactive partially successful successfully landed |
| gptkbp:origin |
named after the Philae Island in Egypt
|
| gptkbp:part_of |
gptkb:Aswan_Governorate
gptkb:Rosetta_mission |
| gptkbp:population |
uninhabited
|
| gptkbp:power_output |
solar panels
|
| gptkbp:provides_information_on |
over 1000 scientific measurements
scientific data about the comet's surface several scientific measurements |
| gptkbp:scientific_goals |
understand solar system formation
measure temperature determine mineralogy determine the comet's density study comet composition study comet structure study interaction with solar wind study the comet's atmosphere analyze surface properties investigate cometary activity understand comet evolution analyze organic molecules measure surface properties analyze comet composition study solar system evolution analyze isotopic ratios investigate organic molecules analyze cometary dust analyze cometary outgassing assess cometary activity examine cometary nucleus examine subsurface structure investigate prebiotic chemistry investigate surface layering investigate thermal properties map surface morphology monitor gas composition study cometary ices study organic chemistry understand comet formation |
| gptkbp:seating_capacity |
gptkb:Ptolemy
gptkb:APXS CIVA COSAC MUPUS ROMAP S D2 |
| gptkbp:significance |
first spacecraft to land on a comet
|
| gptkbp:status |
inactive
lost communication inactive as of 2016 |
| gptkbp:surface |
dust and ice
|
| gptkbp:tourist_attraction |
gptkb:castle
gptkb:battle |
| gptkbp:transmission |
July 2015
|
| gptkbp:unesco_world_heritage_site |
gptkb:battle
|
| gptkbp:weight |
100 kg
about 100 kg 1 kg |
| gptkbp:bfsParent |
gptkb:Person
|
| gptkbp:bfsLayer |
2
|