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DUKAS_187439105_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439104_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439103_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439102_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439101_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439100_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439098_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439097_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439096_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439095_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439094_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187439093_NUR
Crew-11 Walkout Ahead Of Launch
Three astronauts and one cosmonaut on the Crew-11 mission to the International Space Station board their transport vehicles to the launch pad at the Neil Armstrong Operations and Checkout Building in Kennedy Space Center, FL, on July 31, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187438798_NUR
NASA Crew 11 Walkout
Acting NASA Administrator Sean Duffy wishes Crew 11 good luck as they depart for the launch pad. The launch is scheduled for 1209HRS EST on July 31, 2025. (Photo by George Wilson/NurPhoto) -
DUKAS_187438797_NUR
NASA Crew 11 Walkout
Acting NASA Administrator Sean Duffy wishes Crew 11 good luck as they depart for the launch pad. The launch is scheduled for 1209HRS EST on July 31, 2025. (Photo by George Wilson/NurPhoto) -
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NASA Crew 11 Walkout
Mission Specialist Kimiya Yui from Japan waves to his family on his way to the launch pad. The launch is scheduled for 1209HRS EST on July 31, 2025. (Photo by George Wilson/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
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Falcon 9 And Dragon On The Launch Pad Before Crew-11
Falcon 9 and Dragon are poised on the launch pad prior to launching Crew-11 to the International Space Station at Launch Complex 39A in Merritt Island, FL, on July 30, 2025. (Photo by Austin DeSisto/NurPhoto) -
DUKAS_187321291_NUR
NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 crew member Kimiya Yui, mission specialist from Japan, waves to the crowd after landing at the Space Shuttle Landing Facility. Crew 11 launches on Thursday, July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
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NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 crew member Kimiya Yui, mission specialist from Japan, waves to the crowd after landing at the Space Shuttle Landing Facility. Crew 11 launches on Thursday, July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
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NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 crew member Zena Cardman, commander (USA), waves to the crowd after landing at the Space Shuttle Landing Facility. Crew 11 launches on Thursday, July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
DUKAS_187321262_NUR
NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 crew member Kimiya Yui, mission specialist from Japan, waves to the crowd after landing at the Space Shuttle Landing Facility. Crew 11 launches on Thursday, July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
DUKAS_187321216_NUR
NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 crew member Zena Cardman, commander (USA), waves to the crowd after landing at the Space Shuttle Landing Facility. Crew 11 launches on Thursday, July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
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NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 mission specialist Oleg Platonov from Russia motions to the crowd before exiting the Space Shuttle Landing Facility. Crew 11 launches on Thursday, July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
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NASA Spacex Crew 11 Arrives At Kennedy Space Center
NASA SpaceX Crew 11 arrives at the Kennedy Space Center in Florida, USA, on July 26, 2025. Kimiya Yui, mission specialist (Japan), Zena Cardman, commander (USA), Oleg Platonov, mission specialist (Russia), and Mike Fincke, pilot (USA), launch on July 31, 2025, for the International Space Station. (Photo by George Wilson/NurPhoto) -
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Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams is attached to the Canadarm2 robotic arm's latching end effector while being maneuvered to her worksite 264 miles above the South Pacific Ocean. Williams removed and stowed a radio frequency group antenna assembly during the five-hour and 26-minute spacewalk outside the International Space Station. (POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams is attached to the Canadarm2 robotic arm's latching end effector while being maneuvered to her worksite 264 miles above the South Pacific Ocean. Williams removed and stowed a radio frequency group antenna assembly during the five-hour and 26-minute spacewalk outside the International Space Station. (POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams displays production packs containing geneticallly engineered yeast and edible media for incubation to activate yeast growth. The BioNutrients investigation explores using the engineered yeast to produce on-demand nutrients and avoid vitamin deficiencies for crews on long-term missions. The samples are later frozen then returned to Earth to analyze their ability promote crew health and improve the preservation of probiotics. (POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA's SpaceX Crew-9 members pose together for a portrait inside the SpaceX Dragon crew spacecraft docked to the International Space Station. From left, are NASA astronaut Suni Williams, Roscosmos cosmonaut Aleksandr Gorbunov, and NASA astronauts Nick Hague and Butch Wimore.(POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA's SpaceX Crew-9 members pose together for a portrait inside the International Space Station's Unity module. Clockwise from left, are NASA astronauts Butch Wimore and Suni Williams, Roscosmos cosmonaut Aleksandr Gorbunov, and NASA astronaut Nick Hague.(POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams is attached to the Canadarm2 robotic arm's latching end effector while being maneuvered to her worksite 264 miles above the South Pacific Ocean. Williams removed and stowed a radio frequency group antenna assembly during the five-hour and 26-minute spacewalk outside the International Space Station. (POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams is attached to the Canadarm2 robotic arm's latching end effector while being maneuvered to her worksite 264 miles above the South Pacific Ocean. Williams removed and stowed a radio frequency group antenna assembly during the five-hour and 26-minute spacewalk outside the International Space Station. (POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams measures her mass using a specialized device inside the International Space Station's Zvezda service module. The mass measurement device applies a known force to an attached astronaut and measures the resulting acceleration to acquire the crew member's mass. The result is based on a form of Newton's Second Law of Motion.(POLARIS) (FOTO:DUKAS/POLARIS) -
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Astronauts Butch and Suni set to return from space soon
NASA's SpaceX Crew-9 members pose together for a portrait inside the vestibule between the International Space Station and the SpaceX Dragon crew spacecraft. Clockwise from left, are NASA astronauts Butch Wimore, Nick Hague, and Suni Williams, and Roscosmos cosmonaut Aleksandr Gorbunov. (POLARIS) (FOTO:DUKAS/POLARIS) -
DUKAS_182075653_POL
Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams is attached to the Canadarm2 robotic arm's latching end effector while being maneuvered to her worksite 264 miles above the South Pacific Ocean. Williams removed and stowed a radio frequency group antenna assembly during the five-hour and 26-minute spacewalk outside the International Space Station. (POLARIS) (FOTO:DUKAS/POLARIS) -
DUKAS_182075646_POL
Astronauts Butch and Suni set to return from space soon
NASA astronaut and Expedition 72 Commander Suni Williams is attached to the Canadarm2 robotic arm's latching end effector while being maneuvered to her worksite 264 miles above the South Pacific Ocean. Williams removed and stowed a radio frequency group antenna assembly during the five-hour and 26-minute spacewalk outside the International Space Station. (POLARIS) (FOTO:DUKAS/POLARIS) -
DUKAS_182075627_POL
Astronauts Butch and Suni set to return from space soon
NASA's SpaceX Crew-9 members pose together for a portrait inside the SpaceX Dragon crew spacecraft docked to the International Space Station. From left, are NASA astronaut Suni Williams, Roscosmos cosmonaut Aleksandr Gorbunov, and NASA astronauts Nick Hague and Butch Wimore.(POLARIS) (FOTO:DUKAS/POLARIS) -
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Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181471443_BES
Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181471430_BES
Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181471417_BES
Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181471404_BES
Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181471391_BES
Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181471378_BES
Projet de station spatiale sur Mars
Pictures must credit: Thomas Herzig / Pneumocell.com An engineer who has worked on how to set up and feed a colony in Mars has now come up with the best way to put humans on the surface. And he reckons its done by hitching a ride on a passing asteroid. An astronaut’s body will have to endure extreme hardships on a month-long journey to and and then from the Red Planet. They will be exposed to a high dose of cosmic radiation and microgravity where muscles and Bones gradually weaken. When crew members leave their safe habitat to explore the Mars surface another problem is the negative impact on physical performance due microgravity in the spacecraft that took them there. Astronauts returning from the International Space Station already face problems after much shorter stays such as muscle atrophy reduced bone mass ,heart shrinkage and vision issues. Some have too weak to stand on their feet when they initially set foot back on Earth although they recover within a few weeks under careful medical supervision. A new type of space station has been proposed for orbiting Mars using a rotating habitat to simulate gravity as seen in the classic Sixties science fiction film, 2001: A Space Odyssey. It should not spin faster than three revolutions per minute to avoid causing dizziness and motion sickness and so would need a radius of 100 Austrian Thomas Herzig’s idea is for a space station to be assembled on an asteroid called Itokawa which passes close to both Mars and Earth during its journey around the Sun. Picture supplied by JLPPA
JLPPA / Bestimage -
