View allAll Photos Tagged ARTEMIS
art001m1203200651B (Nov. 16, 2022) The launch abort system was jettisoned approximately three minutes after launch of Artemis I, as captured by a camera inside the Orion crew module. Due to extensive ground testing and the absence of astronauts on Artemis I, the launch abort system was inert except to perform this jettison. During future crewed flights, launch abort system jettison will provide astronauts with their first view outside the capsule.
The Ephesian Artemis, the "great mother goddess" also mentioned in the New Testament was extremely popular in the ancient world, as we might deduce from the fact that copies of her cult statue have been excavated in many parts of the Roman Empire.
art001e002652 (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.
The Temple of Artemis was built in the second century AD and features these corinthian columns that were reported to "light up like bars of gold" each time the Jordanian sun lit the ancient city of Jerash in northern Jordan.
On the fifth day of the 25.5-day Artemis I mission, a camera mounted on the tip of one of Orion’s solar array wings captured this footage of the spacecraft and the Moon as it continued to grow nearer to our lunar neighbor.
art001e002057 (Dec. 4, 2022) On flight day 19, Orion’s optical navigation camera captured this image of the full Moon as the spacecraft continued its approach toward the return 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.
A detail of the Jockey of Artemision, a bronze sculpture at the National Archaeological Museum, Athens, Greece
NASA’s Space Launch System (SLS) rocket with the Orion spacecraft aboard is seen atop the mobile launcher at Launch Pad 39B, Friday, Nov. 11, 2022, at NASA’s Kennedy Space Center in Florida. Teams began walkdowns and inspections at the pad to assess the status of the rocket and spacecraft after the passage of Hurricane Nicole. NASA’s Artemis I flight test is the first integrated test of the agency’s deep space exploration systems: the Orion spacecraft, SLS rocket, and supporting ground systems. Launch of the uncrewed flight test is targeted for no earlier than Nov. 16 at 1:04 a.m. EST. Photo Credit: (NASA/Joel Kowsky)
The Artemis is a long range starfighter built by the Mars Corporation. Its main weapon is a high density laser beam, powered by a powerfull generator. The two thrusters of the Artemis allow it to fly up to the outer atmosphere of Mars and target objectives in low orbit.
Another build in my Mars Corporation building theme. The Artemis was my entry to the Bricklink building contest... I posted renders earlier, but finally took the time to take some pictures of the real thing.
art001e001936 (Dec. 2, 2022) A camera mounted on one of Orion’s four solar arrays captured this image of the Earth on flight day 17 of the 25.5-day Artemis I mission from a distance of more than 222,000 miles. Orion has exited the distant lunar orbit and is heading for a Dec. 11 splashdown in the Pacific Ocean.
The Bark Artemis, originally built in Norway as an election catcher, is today a traditional sailing ship under the Dutch flag. 16 cabins were installed for passengers, seven of them for three people and nine for two people. Kiel, Schleswig-Holstein, Germany. The Bark Artemis, originally built in Norway as an election catcher, is today a traditional sailing ship under the Dutch flag. 16 cabins were installed for passengers, seven of them for three persons and nine cabins for two persons. Kiel, Schleswig-Holstein, Germany
Prompt: An ultra-realistic digital fine art painting of the tall ship Bark Artemis under full sail, captured in a wide-angle horizontal composition. The ship’s towering black masts and crisp white sails billow dramatically in the wind, every rope and line of rigging rendered with meticulous high-resolution detail. The white hull glides gracefully over a rough deep blue sea, rolling with the ocean’s heavy swells, while sunlight illuminates the sails and casts subtle shadows across their textured fabric. The bow sprit extends confidently forward, and a small crowd of passengers is visible on deck, adding a sense of scale. The background features a blue daytime sky with faint storm clouds in the distance, enhancing the feeling of open-sea freedom. The overall mood is majestic and dramatic, conveying the timeless beauty and strength of a historic sailing vessel at sea.
Style: Ultra-realistic digital fine art painting
Mood: Majestic, dramatic, and adventurous
Lighting: Bright daylight with natural highlights and soft shadow play on sails
Resolution: 8K, museum-quality detail
Aspect Ratio: Wide horizontal landscape
Digital fine art was created using chatgpt Sora AI and Photoshop
Dans une rade argentée par le contre jour, durant les fêtes nautiques de Brest 2024
In Brest rade during the Brest 2024 nautical festivals
art001e000670 (Nov. 27, 2022) On flight day 12 of the 25.5-day Artemis I mission, a camera on the tip of one of Orion’s solar arrays captured the Moon as Orion travels in distant retrograde orbit around the Moon.
14/03/2023, Puerto de Las Palmas de Gran Canaria, Islas Canarias, Spain.
A very recently renamed stern trawler, undergoing maintenance.
Recorded as having a British commercial operator:
Astrid Shipping Co., Equitable House, 47, King William Street, London, EC4R 9AF, United Kingdom.
Keel laid on 20/12/1983, launched on 17/11/1984, and completed on 06/02/1985, by Frisian Shipyard Welgelegen B.V., Harlingen, Netherlands (108)
3,229 g.t. & 3,350 dwt., as:
'Astrid' to 1992,
'Maartje Theodora' to 1993,
'Atlantic Princess' to 2012,
'Astrid' to 2023, &
'Artemis' to 2023, &
'Astrid' until sold to Turkey for demolition.
Arrived Aliaga on 22/06/2024, work commenced 01/07/2024.
art001m1203372310 (Dec. 4, 2022) Orion captured this video of the Moon from a camera mounted on one of its solar arrays on the 19th day of the Artemis I mission. The spacecraft was over 220,000 miles away from Earth, and over 20,000 miles from the Moon.
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 (SLS) rocket with the Orion spacecraft aboard is seen atop the mobile launcher at Launch Pad 39B, Tuesday, Nov. 8, 2022, at NASA’s Kennedy Space Center in Florida. Teams at Kennedy continue to monitor the weather forecast for Tropical Storm Nicole ahead of the next launch attempt. NASA’s Artemis I flight test is the first integrated test of the agency’s deep space exploration systems: the Orion spacecraft, SLS rocket, and supporting ground systems. Photo Credit: (NASA/Joel Kowsky)
art001e001999 (Dec. 4, 2022) On the 19th day of the Artemis I mission, the Moon grows larger in frame as Orion prepares for the return powered flyby on Dec. 5, when it will pass approximately 79 miles above the lunar surface.
NASA will roll the fully assembled core stage for the agency’s SLS (Space Launch System) rocket that will launch the first crewed #Artemis mission out of NASA’s Michoud Assembly Facility in New Orleans in mid-July. The 212-foot-tall stage will be loaded on the agency’s Pegasus barge for delivery to Kennedy Space Center in Florida.
Here, the core stage is currently behind scaffolding to allow work to continue at NASA’s Michoud Assembly Facility in New Orleans. The stage’s two massive propellant tanks hold a collective 733,000 gallons of liquid propellant to power the four RS-25 engines at its base. Following hardware acceptance reviews and final checkouts, the stage will be readied for delivery.
Image credit: NASA/ Eric Bordelon
#Artemis #ArtemisI #Marshall #Space #NASASLS #Orion #NASA #NASAKennedy #EGS #ExoplorationGroundSystems
NASA’s Space Launch System (SLS) rocket with the Orion spacecraft aboard is seen atop the mobile launcher at Launch Pad 39B, Friday, Nov. 11, 2022, at NASA’s Kennedy Space Center in Florida. Teams began walkdowns and inspections at the pad to assess the status of the rocket and spacecraft after the passage of Hurricane Nicole. NASA’s Artemis I flight test is the first integrated test of the agency’s deep space exploration systems: the Orion spacecraft, SLS rocket, and supporting ground systems. Launch of the uncrewed flight test is targeted for no earlier than Nov. 16 at 1:04 a.m. EST. Photo Credit: (NASA/Joel Kowsky)
art001e000345 (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.
art001e001924 (Dec. 2, 2022) On flight day 17 of the Artemis I mission, Orion’s optical navigation camera captured this black-and-white image of our Earth as the spacecraft sets its sights on a Dec. 11 splashdown in the Pacific Ocean. 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-A. Conigli
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
art001e002593 (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.
Nikon D810 Sports Action Photography with the super sharp AF-S NIKKOR 70-200mm f/2.8G ED VR II from Nikon! Yoga Beach Volleyball Athletes! Beautiful Golden Ratio Composition Photography Yogi Goddesses! Athletic Action Portraits of Swimsuit Bikini Models! Athena, Artemis, Helen, and Aphrodite! Athletic Fitness Models!
My Epic Gear Guide for Landscapes & Portraits!
Everyone is always asking me for this! Here ya go! :)
Epic Art & 45EPIC Gear exalting golden ratio designs for your Hero's Odyssey:
Support epic fine art! 45surf ! Bitcoin: 1FMBZJeeHVMu35uegrYUfEkHfPj5pe9WNz
Exalt the goddess archetype in the fine art of photography! My Epic Book: Photographing Women Models!
Portrait, Swimsuit, Lingerie, Boudoir, Fine Art, & Fashion Photography Exalting the Venus Goddess Archetype: How to Shoot Epic ... Epic! Beautiful Surf Fine Art Portrait Swimsuit Bikini Models!
Follow me my good friends!
Facebook: geni.us/A0Na3
Instagram: geni.us/QD2J
Golden Ratio: geni.us/9EbGK
45SURF: geni.us/Mby4P
Fine Art Ballet: geni.us/C1Adc
Some of my epic books, prints, & more!
Epic Poetry inspires all my photography: geni.us/9K0Ki Epic Poetry for Epic Landscape Photography: Exalt Fine Art Nature Photography with the Poetic Wisdom of John Muir, Emerson, Thoreau, Homer's Iliad, Milton's Paradise Lost & Dante's Inferno Odyssey
Exalt your photography with Golden Ratio Compositions!
Golden Ratio Compositions & Secret Sacred Geometry for Photography, Fine Art, & Landscape Photographers: How to Exalt Art with Leonardo da Vinci's, Michelangelo's!
Epic Landscape Photography:
A Simple Guide to the Principles of Fine Art Nature Photography: Master Composition, Lenses, Camera Settings, Aperture, ISO, ... Hero's Odyssey Mythology Photography)
All my photography celebrates the physics of light! dx4/dt=ic! Light Time Dimension Theory: The Foundational Physics Unifying Einstein's Relativity and Quantum Mechanics: A Simple, Illustrated Introduction to the Physical: geni.us/Fa1Q
Ralph Waldo Emerson. The happiest man is he who learns from nature the lesson of worship.
art001m1203361116 (Dec. 2, 2022) On flight day 17 of the 25.5-day Artemis I mission, a camera mounted on the tip of one of Orion’s four solar arrays captured this video of Earth as the spacecraft was over 220,000 miles away from our home planet.
art001e000344 (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.
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-A. Conigli
art001e000340 (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.
Here is my little Artemis!!!
I'm very busy and I had to do her face up between comissions, but.... she's finally finished!!! *---*
I hope you like her =D
art001e000528 (Nov. 24, 2022)—On flight day 9, NASA’s Orion spacecraft captured imagery of the Moon with its optical navigation camera as it headed toward a distant retrograde orbit around the Moon.
art001e002190 (Dec. 7, 2022) Orion continues its journey home to Earth, which appears here as a crescent, still 234,000 miles away. The Artemis I spacecraft is scheduled to splash down in the Pacific Ocean on Sunday, Dec. 11.
art001m1203372248 (Dec. 4, 2022) Orion captured this video of the Earth from a camera mounted on one of its solar arrays on the 19th day of the Artemis I mission. The spacecraft was over 220,000 miles away from Earth, and over 20,000 miles from the Moon.
art001e003051 (Dec. 10, 2022) On flight day 25 of the 25.5-day Artemis I mission, Orion’s optical navigation camera looked back at the Moon as the spacecraft continued its return journey to Earth. 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.