View allAll Photos Tagged ARTEMIS
art0001e002083 (Dec. 5, 2022) On the 20th day of the Artemis I mission, Orion captured the Earth rising behind the Moon following the return powered flyby. The 3 minute, 27 second, return powered flyby burn, committed the spacecraft to a Dec. 11 splashdown in the Pacific Ocean.
Nov. 21, 2022 -- On flight day six of the Artemis I mission, Orion used its optical navigation camera to snap this black-and-white photo of the Moon. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness under different lighting conditions as a way to help orient the spacecraft on future missions with crew.
art001e002092 (Dec. 5, 2022) --- On the 20th day of the Artemis I mission, Orion captured the Earth rising behind the Moon following the return powered flyby. The 3 minute, 27 second, return powered flyby burn, committed the spacecraft to a Dec. 11 splashdown in the Pacific Ocean.
art001e001983 (Dec. 3, 2022) The Moon is captured by Orion’s optical navigation camera on flight day 18 of the 25.5-day Artemis I mission. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness under different lighting conditions as a way to help orient the spacecraft on future missions with crew.
Seen here, attached to the third stage of the Cronus 5, is the 3-man capsule and lander that make up Artemis.
From the left after the Cronus 5 stage, is the lunar braking stage - a modified high thrust version of the Artemis service module. This slows the rocket down in a way that can be likened to pulling the handbrake in a car. The braking stage then separates and crashes into the lunar surface.
Then the multipurpose landing/ascent stage kicks in for the last few hundred meters of descent, hopefully allowing for a soft touchdown on the moon. (It's worth noting that the moon in this game has half the gravity of Earth's, so there's a little more wiggle room here.) After surface operations are finished, the multipurpose stage takes off to boost the spacecraft on its way back home. The L/A stage then separates and the Artemis command and service module finalizes maneuvers for the return journey.
Orion snapped this high-resolution selfie in space with a camera mounted on its solar array wing during a routine external inspection of the spacecraft on the third day into the Artemis I mission.
The Orion spacecraft with integrated European Service Module sit atop the Space Launch System, imaged at sunrise at historic Launchpad 39B at Kennedy Space Center in Florida, USA on 27 August.
The Flight Readiness Review has deemed the trio GO for launch, marking the dawn of a new era in space exploration.
The first in a series of missions that will return humans to the Moon, including taking the first European, Artemis I is scheduled for launch no earlier than Monday 29 August, at 14:33 CEST.
This mission will put NASA’s Orion spacecraft and ESA’s European Service Module to the test during a journey beyond the Moon and back. No crew will be on board Orion this time, and the spacecraft will be controlled by teams on Earth.
The crew module, however, won’t be empty. Two mannequins, named Helga and Zohar, will occupy the passenger seats. Their female-shaped plastic bodies are filled with over 5600 sensors each to measure the radiation load during their trip around the Moon. The specially trained woolly astronaut, Shaun the Sheep, has also been assigned a seat.
The spacecraft will enter lunar orbit using the Moon’s gravity to gain speed and propel itself almost half a million km from Earth – farther than any human-rated spacecraft has ever travelled.
The second Artemis mission will see four astronauts travel around the Moon on a flyby voyage around our natural satellite.
Mission duration depends on the launch date and even time. It will last between 20 to 40 days, depending on how many orbits of the Moon mission designers decide to make.
This flexibility in mission length is necessary to allow the mission to end as intended with a splashdown during daylight hours in the Pacific Ocean, off the coast of California, USA.
Two more dates are available if a launch on 29 August is not possible. The Artemis Moon mission can also be launched on 2 September and 5 September. Check all the possible launch options on ESA’s Orion blog.
Orion is the only spacecraft capable of human spaceflight outside Earth orbit and high-speed reentry from the vicinity of the Moon. More than just a crew module, Orion includes the European Service Module (ESM), the powerhouse that fuels and propels Orion.
ESM provides for all astronauts’ basic needs, such as water, oxygen, nitrogen, temperature control, power and propulsion. Much like a train engine pulls passenger carriages and supplies power, the European Service Module will take the Orion capsule to its destination and back.
Watch launch coverage on ESA Web TV starting at 12:30 CEST here. Follow @esaspaceflight for updates and live Twitter coverage.
Credits: ESA-S. Corvaja
NASA’s Space Launch System rocket carrying the Orion spacecraft launches on the Artemis I flight test, Wednesday, Nov. 16, 2022, from Launch Complex 39B at NASA’s Kennedy Space Center in Florida. NASA’s Artemis I mission is the first integrated flight test of the agency’s deep space exploration systems: the Orion spacecraft, Space Launch System (SLS) rocket, and ground systems. SLS and Orion launched at 1:47 a.m. EST, from Launch Pad 39B at the Kennedy Space Center.
Credit: NASA/Bill Ingalls
Image Number: NHQ202211160208
Date: November 16, 2022
Strobist: AB1600 with gridded 60X30 softbox camera left. AB800 with Softlighter II camera right. Triggered by Cybersync.
Technicians are manufacturing NASA's Space Launch System (SLS) core stage for the Artemis II lunar mission at NASA's Michoud Assembly Facility in New Orleans. The core stage for the deep space rocket consists of two huge propellant tanks, four RS-25 engines, and miles of cabling for the avionics systems and flight computers. All the main core stage structures for Artemis II, the first mission with astronauts, have been built and are being outfitted with electronics, feedlines, propulsion systems, and other components. Technicians are currently wiring and performing functional tests on the avionics inside both the forward skirt and intertank sections. The engine section – the most complicated part of the stage – is in production assembly.
Image Credit: NASA
#NASA #space #moon #Mars #NASAMarshall #msfc #sls #spacelaunchsystem #nasasls #rockets #exploration #engineering #explore #rocketscience #artemis #KennedySpaceCenter #KSC
art001e000255 (Nov. 20, 2022) Taken on the fifth day of the Artemis I mission, this photo showing the Orion spacecraft with the Moon beyond was captured by a camera on the tip of one of Orion’s solar arrays. The spacecraft arrived at its closest approach to the moon the following day, Nov. 21, 2022, coming within 80 miles of the lunar surface.
art001m1203251230B (Nov. 21, 2022) – On flight day 6, a camera mounted on one of Orion’s solar array wings captures Earth as it sets behind the Moon ahead of the outbound powered flyby, an approximately 2 minute, 30 second burn that committed the spacecraft to a distant retrograde orbit.
Shot with Canon EOS R5 and 50mm © Craig Lindsay 2025. All rights reserved.
Model: Artemis Fauna
art001e001464 (Nov. 27, 2022) On flight day 12, Orion’s optical navigation camera was used to capture this lunar image as the spacecraft was in distant retrograde orbit around the Moon. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness under different lighting conditions as a way to help orient the spacecraft on future missions with crew.
The Orion spacecraft with integrated European Service Module sit atop the Space Launch System, imaged at sunrise at historic Launchpad 39B at Kennedy Space Center in Florida, USA on 27 August.
The Flight Readiness Review has deemed the trio GO for launch, marking the dawn of a new era in space exploration.
The first in a series of missions that will return humans to the Moon, including taking the first European, Artemis I is scheduled for launch no earlier than Monday 29 August, at 14:33 CEST.
This mission will put NASA’s Orion spacecraft and ESA’s European Service Module to the test during a journey beyond the Moon and back. No crew will be on board Orion this time, and the spacecraft will be controlled by teams on Earth.
The crew module, however, won’t be empty. Two mannequins, named Helga and Zohar, will occupy the passenger seats. Their female-shaped plastic bodies are filled with over 5600 sensors each to measure the radiation load during their trip around the Moon. The specially trained woolly astronaut, Shaun the Sheep, has also been assigned a seat.
The spacecraft will enter lunar orbit using the Moon’s gravity to gain speed and propel itself almost half a million km from Earth – farther than any human-rated spacecraft has ever travelled.
The second Artemis mission will see four astronauts travel around the Moon on a flyby voyage around our natural satellite.
Mission duration depends on the launch date and even time. It will last between 20 to 40 days, depending on how many orbits of the Moon mission designers decide to make.
This flexibility in mission length is necessary to allow the mission to end as intended with a splashdown during daylight hours in the Pacific Ocean, off the coast of California, USA.
Two more dates are available if a launch on 29 August is not possible. The Artemis Moon mission can also be launched on 2 September and 5 September. Check all the possible launch options on ESA’s Orion blog.
Orion is the only spacecraft capable of human spaceflight outside Earth orbit and high-speed reentry from the vicinity of the Moon. More than just a crew module, Orion includes the European Service Module (ESM), the powerhouse that fuels and propels Orion.
ESM provides for all astronauts’ basic needs, such as water, oxygen, nitrogen, temperature control, power and propulsion. Much like a train engine pulls passenger carriages and supplies power, the European Service Module will take the Orion capsule to its destination and back.
Watch launch coverage on ESA Web TV starting at 12:30 CEST here. Follow @esaspaceflight for updates and live Twitter coverage.
Credits: ESA-S. Corvaja
The Artemis Of Ephesus is one of many copies that you’ll find, which would have originated in Ephesus, Asia Minor in modern-day Turkey. The statue is of Artemis the goddess of fertility and those are bull testicles. ~ The Roman Guy
Custom Love Mission in progress for *chacha*/Cagla.
And no... she's not toasting a marshmallow... that's her spear! :D
art001e002655 (Dec. 5, 2022): The optical navigation camera mounted on the Orion spacecraft captured these views of the Moon’s surface. On flight day 20 of the Artemis I mission, the spacecraft made its second and final close approach to the Moon before its returned powered flyby burn. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness under different lighting conditions as a way to help orient the spacecraft on future missions with crew.
Orion’s black-and-white optical navigation camera captured this view of the Moon on the fourth day of the Artemis I mission. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness as a method for determining its position in space for future missions under differing lighting conditions.
Shot with Canon EOS R5 and 50mm © Craig Lindsay 2025. All rights reserved.
Model: Artemis Fauna
art001e003069 (Dec. 11, 2022) On the day of its return to Earth, Orion’s optical navigation camera captured this image of the planet. The spacecraft splashed down at 12:40 p.m. EST Dec. 11, completing the Artemis I mission and paving the way for future Artemis missions to land the first woman and first person of color on the Moon.
Shot with Canon EOS R5 and 50mm © Craig Lindsay 2025. All rights reserved.
Model: Artemis Fauna
Le site sur lequel s'élevait l'une des Sept merveilles du monde n'est plus de nos jours qu'une cuvette marécageuse. Suivant les années et les saisons, les mares sont plus ou moins grandes. La plus grande forme un petit lac peu profond qui recouvre dalles, morceaux de colonnes et de chapiteaux. Si d'un point de vue archéologique, il n'y a pas grand chose à voir, l'endroit ne manque pas de charme. Les oies de la ferme d'à côté s'en sont fait les gardiennes. Une cigogne niche sur la colonne, des martinets tournoient au dessus des mares. Celles-ci sont le domaine des grenouilles et de nombreuses tortues d'eau que l'on verra se chauffer sur les pierres. Si on entend des chocs bizarres, ce sont les ébats de tortues terrestres.
Taken on a remote shoot with Artemis © Craig Lindsay 2024. All rights reserved.
Model: Artemis Fauna
© Austin Sullivan 2010
"The Mistress of Animals; Artemis of the Wilds"
So this isn't what we were thinking when Emma and I took this, but after reviewing the picture the title seemed fitting. I know it doesn't look like it but Emma let me paint her eyes yellow, that is not make up, it's paint. It easily washed off though :) Thanks Emma.
23/100
art001e001873 (Dec. 1, 2022) Orion’s optical navigation camera captured this image of the Moon on flight day 16 of the Artemis I mission. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness under different lighting conditions as a way to help orient the spacecraft on future missions with crew.
The Orion spacecraft with integrated European Service Module sit atop the Space Launch System, imaged at sunrise at historic Launchpad 39B at Kennedy Space Center in Florida, USA on 27 August.
The Flight Readiness Review has deemed the trio GO for launch, marking the dawn of a new era in space exploration.
The first in a series of missions that will return humans to the Moon, including taking the first European, Artemis I is scheduled for launch no earlier than Monday 29 August, at 14:33 CEST.
This mission will put NASA’s Orion spacecraft and ESA’s European Service Module to the test during a journey beyond the Moon and back. No crew will be on board Orion this time, and the spacecraft will be controlled by teams on Earth.
The crew module, however, won’t be empty. Two mannequins, named Helga and Zohar, will occupy the passenger seats. Their female-shaped plastic bodies are filled with over 5600 sensors each to measure the radiation load during their trip around the Moon. The specially trained woolly astronaut, Shaun the Sheep, has also been assigned a seat.
The spacecraft will enter lunar orbit using the Moon’s gravity to gain speed and propel itself almost half a million km from Earth – farther than any human-rated spacecraft has ever travelled.
The second Artemis mission will see four astronauts travel around the Moon on a flyby voyage around our natural satellite.
Mission duration depends on the launch date and even time. It will last between 20 to 40 days, depending on how many orbits of the Moon mission designers decide to make.
This flexibility in mission length is necessary to allow the mission to end as intended with a splashdown during daylight hours in the Pacific Ocean, off the coast of California, USA.
Two more dates are available if a launch on 29 August is not possible. The Artemis Moon mission can also be launched on 2 September and 5 September. Check all the possible launch options on ESA’s Orion blog.
Orion is the only spacecraft capable of human spaceflight outside Earth orbit and high-speed reentry from the vicinity of the Moon. More than just a crew module, Orion includes the European Service Module (ESM), the powerhouse that fuels and propels Orion.
ESM provides for all astronauts’ basic needs, such as water, oxygen, nitrogen, temperature control, power and propulsion. Much like a train engine pulls passenger carriages and supplies power, the European Service Module will take the Orion capsule to its destination and back.
Watch launch coverage on ESA Web TV starting at 12:30 CEST here. Follow @esaspaceflight for updates and live Twitter coverage.
Credits: ESA-S. Corvaja
art001e003070 (Dec. 11, 2022) On the day of its return to Earth, Orion’s optical navigation camera captured this image of the planet. The spacecraft splashed down at 12:40 p.m. EST Dec. 11, completing the Artemis I mission and paving the way for future Artemis missions to land the first woman and first person of color on the Moon.
art001e000348 (Nov. 21, 2022) – On the sixth day of the Artemis I mission, Orion’s optical navigation camera captured black-and-white images of craters on the Moon below. Orion uses the optical navigation camera to capture imagery of the Earth and the Moon at different phases and distances, providing an enhanced body of data to certify its effectiveness under different lighting conditions as a way to help orient the spacecraft on future missions with crew.
On Nov. 16, Orion’s solar arrays are maneuvered in preparation for the perigee raise maneuver to ensure no loads are imparted on the arrays. They are then maneuvered back to point toward the Sun following the burn by the Integrated Communications Officer, or INCO, flight controller.
This high-resolution image captures the inside of the Orion crew module on flight day one of the Artemis I mission. At left is Commander Moonikin Campos, a purposeful passenger equipped with sensors to collect data that will help scientists and engineers understand the deep-space environment for future Artemis missions. At center is the Callisto payload, a technology demonstration of voice-activated audio and video technology from Lockheed Martin in collaboration with Amazon and Cisco. Callisto could assist future astronauts on deep-space missions. Below and to the right of Callisto is the Artemis I zero-gravity indicator, astronaut Snoopy.