NASA Artemis I Launch Date

Updated: September 27, 2022

Mission Overview

NASA’s Artemis I mission, the first integrated flight test of the Space Launch System (SLS) rocket and the Orion spacecraft, will pave the way for human exploration of the Moon and Mars.

Launch Date

Current Target Launch Date: November 14, 2022

Backup Launch Dates: November 16 and November 19, 2022

Launch Site

Kennedy Space Center, Florida

Mission Objectives

• Test the SLS rocket and Orion spacecraft in a deep space environment
• Deploy 10 CubeSats to study the lunar environment and technology
• Perform a lunar flyby and return to Earth

Artemis Timeline

• November 2022: Artemis I launch
• 2024: Artemis II, crewed lunar flyby
• 2025: Artemis III, crewed lunar landing
• 2030s: Artemis IV-VIII, lunar surface missions and establishment of Gateway lunar outpost

SLS Rocket

• Height: 322 feet (98 meters)
• Diameter: 27.6 feet (8.4 meters)
• Thrust: 8.8 million pounds (3.9 million kilograms)

Orion Spacecraft

• Height: 11.3 feet (3.4 meters)
• Diameter: 16.5 feet (5 meters)
• Crew Capacity: 4-6 astronauts

CubeSats

• LunaH-Map: Lunar gravity mapping
• BioSentinel: Study effects of deep space radiation on yeast
• Cislunar Explorers: Lunar surface exploration
• NEA Scout: Near-Earth asteroid exploration
• ArgoMoon: Lunar atmosphere study
• Lunar IceCube: Lunar ice mapping
• EQUULEUS: Lunar surface resource mapping
• OMOTENASHI: Lunar landing technology demonstration
• CU-E3: Lunar plasma study
• Team Miles: Education and public outreach

Importance of Artemis

The Artemis program is vital for the future of human space exploration. It will:

• Establish a sustainable human presence on the Moon
• Provide a stepping stone for missions to Mars
• Advance scientific understanding of the Moon and its resources
• Inspire the next generation of scientists and engineers

Frequently Asked Questions (FAQs)

Q: Why is the Artemis mission important?
A: The Artemis mission is important because it will pave the way for human exploration of the Moon and Mars.

Q: What is the launch date of Artemis I?
A: The current target launch date for Artemis I is November 14, 2022.

Q: What is the purpose of the CubeSats on Artemis I?
A: The CubeSats will study the lunar environment and technology, and demonstrate new capabilities.

Q: What is the ultimate goal of the Artemis program?
A: The ultimate goal of the Artemis program is to establish a sustainable human presence on the Moon.

References

• NASA Artemis I Mission Overview
• Space Launch System
• Orion Spacecraft

NASA Artemis I Mission Objectives

The Artemis I mission is NASA’s first integrated flight test of its Space Launch System (SLS) rocket with the Orion spacecraft. The mission’s objectives include:

• Launching the SLS rocket and Orion spacecraft into orbit.
• Testing the Orion spacecraft’s systems during a three-week flight around the Moon.
• Splashing down the Orion spacecraft in the Pacific Ocean.

The Artemis I mission is a critical step in NASA’s Artemis program, which aims to land the first woman and the next man on the Moon by 2024. The mission will provide NASA with valuable data on the performance of the SLS and Orion spacecraft, which will be used to inform future missions to the Moon and Mars.

NASA Artemis I Crew

The NASA Artemis I crew is composed of three astronauts:

• Commander: Michael López-Alegría
  • NASA astronaut with extensive experience in spaceflight, including four Space Shuttle missions and two long-duration stays on the International Space Station (ISS).
• Command Module Pilot: NiCole Manley
  • NASA astronaut with a background in engineering and robotics, and experience as a test engineer for the Orion spacecraft.
• Lunar Module Pilot: Kathryn Lueders
  • NASA astronaut and current Associate Administrator of NASA’s Human Exploration and Operations Mission Directorate, with extensive experience in space operations and human spaceflight planning.

NASA Artemis I Spacecraft

NASA’s Artemis I spacecraft is an uncrewed mission that will pave the way for future human lunar landings. Launched on November 16, 2022, the spacecraft consists of two major components:

• Orion Crew Capsule: The Orion capsule will carry astronauts for future Artemis missions and provide a safe environment during launch, lunar orbit, and re-entry.
• Space Launch System (SLS) Rocket: The SLS is the most powerful rocket ever built and will propel Orion into space.

The Artemis I mission will test critical systems and technologies for human space exploration beyond Earth’s orbit. It will fly around the Moon for about three weeks, reaching a distance of approximately 64,000 kilometers from the lunar surface. The spacecraft will perform several maneuvers, including a lunar flyby and a return trajectory back to Earth.

The data collected from the Artemis I mission will provide valuable insights for future crewed Artemis missions, aiming to establish a sustainable human presence on the Moon and ultimately prepare for human exploration of Mars.

NASA Artemis I Rocket

NASA’s Artemis I mission is a historic launch of the Space Launch System (SLS) rocket and the Orion spacecraft. The mission aims to:

• Test the SLS as a heavy-lift launch vehicle capable of carrying astronauts and cargo to the Moon and beyond.
• Evaluate the Orion spacecraft’s performance in deep space, including its life support systems and re-entry capabilities.
• Conduct a flyby of the Moon to demonstrate the spacecraft’s navigation and guidance systems.

The SLS is the world’s most powerful rocket, with a height of about 322 feet. It is powered by four RS-25 engines and two solid rocket boosters. The Orion spacecraft is designed to carry up to six astronauts on missions to the Moon and Mars. It is equipped with a life support system, a command module, and a service module.

The Artemis I mission launched successfully on August 29, 2022. The SLS propelled the Orion spacecraft into orbit around Earth, where it conducted several tests and maneuvers. The spacecraft then traveled to the Moon, performing a flyby before returning to Earth. The Orion spacecraft splashed down in the Pacific Ocean on December 11, 2022, completing a successful 25-day mission.

The data collected from Artemis I will help NASA prepare for future crewed missions to the Moon, including the Artemis II and Artemis III missions. The successful launch and operation of the SLS and Orion spacecraft represents a significant milestone in NASA’s ambitious plans for human exploration of the solar system.

NASA Artemis I Trajectory

NASA’s Artemis I mission will be the first uncrewed flight of the Space Launch System (SLS) rocket and the Orion spacecraft, marking the beginning of the Artemis program to return humans to the Moon by 2024. The mission will launch from Kennedy Space Center in Florida and follow a complex trajectory that will include:

• Earth Departure Burn: The SLS rocket will burn its engines for about 8 minutes to propel the Orion spacecraft into Earth orbit.
• Translunar Injection Burn: After completing one orbit of Earth, the Orion spacecraft will fire its engines for a second time, pushing it out of Earth’s gravitational sphere and into a trajectory toward the Moon.
• Lunar Orbit Insertion Burn: As the Orion spacecraft approaches the Moon, it will fire its engines again to slow down and enter lunar orbit.
• Distant Retrograde Orbit (DRO): The Orion spacecraft will spend about two weeks in DRO, an elongated orbit that takes it far above and behind the Moon.
• Lunar Flyby: The Orion spacecraft will perform a close flyby of the Moon, coming within 100 kilometers of its surface.
• Trans-Earth Injection Burn: After completing its lunar exploration, the Orion spacecraft will fire its engines for a final time to return to Earth.
• Earth Return Trajectory: The Orion spacecraft will travel back to Earth, entering the atmosphere and splashing down in the Pacific Ocean.

NASA Artemis I Landing Site

NASA’s Artemis I mission will land on the Moon’s South Pole in 2025. The specific landing site, named Nobile Crater, was chosen for its scientific value and accessibility. The crater is thought to contain water ice, which could be used as a resource for future lunar exploration. It is also located near the lunar South Pole, which makes it a good location for a base that could support future human missions to the Moon. The Nobile Crater landing site was selected after a thorough evaluation process that included input from scientists, engineers, and mission planners.

NASA Artemis I Cost

The Artemis I mission, NASA’s first uncrewed flight test of the Space Launch System (SLS) rocket and Orion spacecraft, has been estimated to cost around $4.1 billion. This includes:

• Launch vehicle development: $2.9 billion
• Orion spacecraft development: $0.9 billion
• Mission operations: $0.3 billion

The SLS rocket, the largest and most powerful rocket ever built, is being developed by Boeing at a cost of approximately $2 billion per launch. The Orion spacecraft, designed to carry astronauts to the Moon, is being developed by Lockheed Martin at a cost of approximately $1 billion per launch.

The Artemis I mission is scheduled to launch in February 2022 and will orbit the Moon for several weeks before returning to Earth. The mission will pave the way for future crewed Artemis missions to the Moon and eventually to Mars.

NASA Artemis I Timeline

• August 29, 2022: Launch of Artemis I from the Kennedy Space Center.
• August 31, 2022: Insertion into lunar orbit.
• September 4, 2022: Closest approach to the Moon, 61 miles (98 km) above the surface.
• September 5-11, 2022: Lunar orbital operations, including mission simulations for future human landings.
• September 12, 2022: Orion spacecraft performs a flyby of the Moon.
• September 13, 2022: Orion spacecraft exits lunar orbit and begins its return to Earth.
• September 25, 2022: Orion spacecraft enters Earth’s atmosphere and splashes down in the Pacific Ocean.

NASA Artemis I Risks

The Artemis I mission faces various risks, including:

• Launch Vehicle Failure: The Space Launch System (SLS) rocket, responsible for launching Orion into space, has not yet flown, raising concerns about its reliability.
• Space Vehicle Failure: Orion, the spacecraft that will carry astronauts to the Moon, has limited flight experience and is untested in the deep space environment.
• Radiation Exposure: Astronauts will be exposed to high levels of radiation during their journey to and from the Moon, potentially leading to health issues.
• Landing Hazard: The landing site on the Moon, a region known as the South Pole-Aitken Basin, has not been visited by humans before and poses uncertainties regarding surface conditions.
• Crew Health: Space travel can impose significant physiological stress on astronauts, potentially impacting their health and well-being during the extended mission.
• Technical Failures: The complex nature of the Artemis I mission involves numerous systems and subsystems, increasing the risk of technical failures that could jeopardize the crew’s safety.
• Contingency Scenarios: The ability to respond effectively to unexpected emergencies or critical failures during the mission is crucial to ensuring crew safety and mission success.
• Funding and Schedule: The Artemis I program faces substantial financial and schedule risks, requiring ongoing congressional support and efficient project management.

Space.com Artemis I Coverage

Space.com provides comprehensive coverage of the Artemis I mission, the uncrewed launch that will pave the way for future crewed missions to the Moon and Mars.

Launch and Flight:

• Detailed launch coverage, including live updates and analysis
• Real-time tracking of the Orion spacecraft’s flight path
• Updates on the performance of the Space Launch System (SLS) rocket

Scientific Payloads:

• Explanation of the scientific instruments aboard Orion and their goals
• Results from experiments conducted during the mission
• Analysis of data collected on the lunar environment

Mission Milestones:

• Coverage of key milestones, such as the lunar orbit insertion, flyby, and splashdown
• Updates on the status of the spacecraft and its systems

Exploration and Expansion:

• Analysis of the mission’s implications for future crewed Moon missions
• Discussion of the potential for lunar habitation and resource utilization
• Insights into NASA’s long-term plans for human space exploration

Steve Spaleta Artemis I Interview Summary

Steve Spaleta, Artemis I Program Manager, discusses the upcoming mission and its significance in NASA’s Artemis program, which aims to return humans to the Moon by 2024. Key points from the interview include:

• Artemis I Mission: Spaleta highlights the three main objectives of the mission: to test Orion and SLS, validate ground systems, and demonstrate critical technologies.
• Mission Impact: He emphasizes the mission’s role in advancing NASA’s capabilities for future Artemis missions and establishing a sustainable presence on the Moon.
• Launch Progress: Spaleta provides an update on the launch preparation process, noting the team’s focus on ensuring the spacecraft and its systems are ready for launch.
• Technological Advancements: He discusses various technological advancements incorporated into Orion and SLS, including the Orion heat shield, SLS core stage, and the cryogenic propulsion system.
• Future of Artemis: Spaleta expresses optimism about the future of the Artemis program, emphasizing its importance for scientific research, exploration, and inspiring future generations.

Space Launch System Artemis I Configuration

The Space Launch System (SLS) Artemis I configuration is designed to propel the Orion spacecraft into lunar orbit. It comprises:

• Core Stage: A liquid-fueled stage providing 8.8 million pounds of thrust.
• Solid Rocket Boosters: Two solid rocket boosters that provide additional thrust during launch.
• Interim Cryogenic Propulsion Stage: A liquid hydrogen-fueled stage that places Orion into Earth orbit.
• Orion Spacecraft: A crew module that will transport astronauts to and from lunar orbit.
• Service Module: Provides propulsion, power, and life support for Orion.
• Launch Abort System: A rocket that can eject Orion from the SLS in case of an emergency.

Orion Artemis I Capsule

The Orion Artemis I capsule is a spacecraft designed by NASA as part of the Artemis program, aiming to return humans to the Moon. It is a crewed capsule that will carry astronauts to lunar orbit during the first uncrewed flight of the Space Launch System (SLS).

Key Features:

• Designed to accommodate up to six astronauts
• Equipped with life support systems, including air conditioning, water recycling, and food storage
• Features a docking port for lunar lander rendezvous
• Incorporates a heat shield for re-entry into Earth’s atmosphere
• Utilizes a launch abort system for emergency situations

Mission:

The Orion Artemis I capsule is scheduled to launch on the first flight of the SLS in 2022. It will orbit the Moon for approximately six weeks, testing the spacecraft’s systems and demonstrating its capabilities for future crewed missions.

Artemis I Mission to the Moon

Overview:

NASA’s Artemis I mission launched an uncrewed Orion spacecraft to lunar orbit in November 2022. It marked the first step toward returning human astronauts to the Moon since 1972.

Objectives:

• Test the Orion spacecraft and its ability to travel to and from lunar orbit
• Evaluate the Space Launch System (SLS) rocket and its ability to launch a heavy payload
• Conduct lunar flyby and test Orion’s navigation and guidance systems

Key Events:

• November 16, 2022: Launch of the Orion spacecraft and SLS rocket from the Kennedy Space Center
• November 21, 2022: Entry into lunar orbit
• November 25, 2022: Lunar flyby at approximately 80 miles (130 kilometers) above the Moon’s surface
• December 5, 2022: Splashdown in the Pacific Ocean after a 25-day mission

Results:

• The mission successfully met all of its primary objectives, including testing the Orion spacecraft and SLS rocket.
• Orion performed well in lunar orbit, demonstrating its ability to support human habitation.
• The SLS rocket proved to be a powerful and reliable launch vehicle.
• The mission provided valuable data for future human missions to the Moon and Mars.

Artemis I Lunar Landing

On July 1, 2024, Artemis I’s Orion spacecraft successfully touched down on the surface of the Moon, marking the first crewed landing on the lunar surface in over 50 years. The mission was a crucial milestone in NASA’s ambitious Artemis program, aiming to establish a sustainable human presence on the Moon.

During the landing, the Orion spacecraft aimed for a site near the Moon’s south pole, known as Mare Tranquillitatis, where Apollo 11 astronauts Neil Armstrong and Buzz Aldrin first set foot on the Moon in 1969. After a precise descent guided by navigation systems, the spacecraft gently touched down on the lunar surface at 2:18 pm EST.

This historic event demonstrated NASA’s advanced capabilities in space exploration, paving the way for future manned missions to the Moon and Mars. The Artemis I lunar landing represents a significant step towards establishing a permanent human presence on the Moon, opening new possibilities for scientific discoveries and human exploration.

Artemis I Lunar Exploration

Artemis I, launched in November 2022, marks the inaugural mission of NASA’s Artemis program. The unmanned Orion spacecraft traveled approximately 280,000 miles beyond the Moon on a 25-day journey, setting several records and testing critical systems for future human lunar missions. Key highlights included:

• Farthest Travel for a Spacecraft Designed for Humans: Orion ventured further than any spacecraft designed to carry humans had previously flown, reaching the Moon’s far side.
• Record Time in Distant Retrograde Orbit: The spacecraft spent 6.5 days in distant retrograde orbit (DRO) around the Moon, a crucial maneuver for future human missions.
• Re-Entry Testing: Orion successfully re-entered Earth’s atmosphere at speeds exceeding 24,500 miles per hour, generating temperatures as high as 5,000 degrees Fahrenheit.
• Space Launch System Performance: The Space Launch System (SLS) rocket, the most powerful ever built, successfully lifted Orion into space, paving the way for future crewed missions.

Artemis I’s successful completion marked a significant milestone in NASA’s ambitious lunar exploration goals and laid the foundation for future human landings on the Moon’s surface.

Artemis I Partnership with SpaceX

SpaceX, a private space exploration company founded by Elon Musk, is a key partner in NASA’s Artemis I mission. SpaceX is responsible for providing the launch vehicle, the Falcon Heavy, to send the Orion spacecraft and the European Service Module into orbit. The Falcon Heavy is a powerful rocket capable of lifting heavy payloads into space.

In addition to providing the launch vehicle, SpaceX is also responsible for developing and operating the Dragon XL spacecraft. The Dragon XL is designed to carry crew and cargo to and from the International Space Station (ISS) and will be used to deliver supplies to the Gateway, a planned lunar outpost.

The Artemis I mission is an important step in NASA’s Artemis program, which aims to return humans to the Moon by 2024. The mission will also test the Orion spacecraft, the Gateway, and other technologies that will be used in future Artemis missions. The partnership between NASA and SpaceX is essential for the success of the Artemis program and demonstrates the growing role of private companies in space exploration.

Artemis I Mission to Mars: An Overview

The upcoming Artemis I mission, scheduled for launch in 2024, marks a significant milestone in NASA’s ambitious goal of returning humans to the Moon and eventually exploring Mars. While the Artemis I mission itself will not directly involve travel to Mars, it will provide crucial experience and technology demonstrations necessary for future crewed missions to the Red Planet.

The mission will utilize the Space Launch System (SLS), NASA’s most powerful rocket, capable of launching spacecraft into deep space. The SLS will carry the Orion spacecraft, which will orbit the Moon and serve as a test platform for future missions to Mars.

During the Artemis I mission, astronauts will conduct remote robotic operations and other scientific investigations to assess the lunar environment. The mission will also test key systems and technologies for Mars exploration, such as power generation, propulsion, and life support.

While the Artemis I mission does not involve Mars itself, it will lay the groundwork for future crewed missions to the Red Planet. The knowledge and experience gained from this mission will contribute to the development of spacecraft, space suits, and other technologies essential for human exploration of Mars.