Statements (158)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:planet
gptkb:spacecraft |
| gptkbp:budget |
$2.9 billion
estimated at $2.9 billion |
| gptkbp:capacity |
up to 100 tons
|
| gptkbp:challenges |
overcoming engineering challenges
Thermal protection system High altitude landing |
| gptkbp:collaborations |
involves international space agencies
Involves international partners NASA and Space X Potential partnerships with other space agencies |
| gptkbp:communication |
Advanced communication technology
high-bandwidth communication |
| gptkbp:community_engagement |
gptkb:High
Educational outreach programs high public interest Local events and presentations engages the public through outreach |
| gptkbp:community_involvement |
STEM programs
|
| gptkbp:community_support |
Strong public interest
|
| gptkbp:contract |
gptkb:NASA
|
| gptkbp:crew |
gptkb:4
up to 6 astronauts prioritizes crew safety up to 4 astronauts NASA astronaut training NASA astronaut training programs |
| gptkbp:design |
Modular design
Prototype testing Multiple prototypes tested Space X engineers |
| gptkbp:designed_by |
gptkb:Space_X
|
| gptkbp:developer |
$2.9 billion
ongoing development Estimated at $2.9 billion |
| gptkbp:diameter |
9 meters
approximately 9 meters |
| gptkbp:durability |
Fully reusable
fully reusable |
| gptkbp:educational_programs |
comprised of top engineers
Space X engineers and scientists |
| gptkbp:elevation |
gptkb:battle
requires precise orbital insertion |
| gptkbp:environmental_impact |
gptkb:United_States_Coast_Guard_Cutter
Minimized emissions assesses environmental impact Designed for minimal impact |
| gptkbp:features |
Aerodynamic shape
unique design features for lunar landings |
| gptkbp:first_flight |
2025
Ongoing Planned for 2024 Validate landing capabilities |
| gptkbp:fuel_type |
Liquid methane and liquid oxygen
liquid methane and liquid oxygen |
| gptkbp:future_plans |
Human settlement on Mars
Human presence on the Moon and Mars |
| gptkbp:has_programs |
Artemis lunar exploration
|
| gptkbp:height |
50 meters
approximately 20 meters approximately 50 meters |
| https://www.w3.org/2000/01/rdf-schema#label |
Starship HLS
|
| gptkbp:impact |
Advancement of lunar exploration technology
|
| gptkbp:infrastructure |
Lunar base support
|
| gptkbp:innovation |
New propulsion systems
advanced technologies used |
| gptkbp:inspiration |
gptkb:software
Future space exploration Human exploration of the Moon |
| gptkbp:is_a_supporter_of |
Planned for 2024
|
| gptkbp:is_explored_in |
supports lunar exploration goals
|
| gptkbp:is_tested_for |
gptkb:Space_X_Boca_Chica
Prototype testing prototype testing |
| gptkbp:landing_site |
lunar surface
|
| gptkbp:launch_date |
2025
Multiple launches per year Multiple launches planned multiple missions planned Multiple missions planned |
| gptkbp:launch_site |
gptkb:Kennedy_Space_Center
|
| gptkbp:launch_vehicle |
gptkb:starship
gptkb:Space_X_Starship |
| gptkbp:launched |
gptkb:Launch_Complex_39_A
specific launch windows required 2025-2028 Scheduled for 2025 Specific lunar launch windows requires extensive launch preparation |
| gptkbp:legacy |
aims to create a lasting legacy
|
| gptkbp:market |
Lower than traditional rockets
|
| gptkbp:marketed_as |
potential for commercial applications
|
| gptkbp:mass |
approximately 85 tons
|
| gptkbp:max_takeoff_weight |
Vertical landing
propulsive landing |
| gptkbp:media_coverage |
Extensive
extensive media coverage |
| gptkbp:mission |
gptkb:Artemis_program
gptkb:Lunar_Gateway gptkb:Mars_missions Crewed lunar landing Establish a sustainable human presence on the Moon aims for mission success Mars missions planned potential for Mars missions conducts post-mission analysis human landing |
| gptkbp:mission_duration |
up to 14 days
Approximately 1 week |
| gptkbp:navigation_system |
autonomous navigation
Autonomous landing system |
| gptkbp:notable_achievement |
gptkb:First_crewed_landing_on_the_Moon
|
| gptkbp:operational_area |
gptkb:Lunar_exploration
|
| gptkbp:operational_status |
In development
|
| gptkbp:part_of |
gptkb:Artemis_program
|
| gptkbp:partnerships |
Commercial space companies
NASA, ESA, and others NASA and commercial partners |
| gptkbp:produced_by |
In development
in development |
| gptkbp:project |
2020s
incorporates future technologies Next-gen propulsion systems Reusable spacecraft technology managed by Space X project managers |
| gptkbp:propulsion |
gptkb:Raptor_engines
|
| gptkbp:purpose |
gptkb:planet
lunar landings |
| gptkbp:receives_funding_from |
partially funded by public money
NASA budget allocations |
| gptkbp:regulatory_compliance |
requires regulatory approvals
Required from FAA |
| gptkbp:research |
Lunar surface experiments
supports scientific research missions |
| gptkbp:safety_features |
Redundant systems
redundant systems complies with safety regulations extensive safety testing NASA safety standards |
| gptkbp:safety_record |
To be established
|
| gptkbp:seating_capacity |
100 metric tons
100 tons to LEO up to 100 tons to lunar orbit |
| gptkbp:specifies |
Detailed in NASA documentation
|
| gptkbp:supply_chain |
Global supply chain partners
involves complex supply chain logistics |
| gptkbp:supports |
Strong interest from space enthusiasts
|
| gptkbp:surface |
conduct surface operations on the Moon
|
| gptkbp:sustainability |
Eco-friendly materials
uses renewable resources |
| gptkbp:sustainability_initiatives |
Reduce space debris
Support lunar base construction |
| gptkbp:technology |
gptkb:Starship_Super_Heavy
Autonomous landing system |
| gptkbp:weight |
approximately 85 tons
|
| gptkbp:bfsParent |
gptkb:starship
|
| gptkbp:bfsLayer |
3
|