Tuesday, July 14, 2026

Russian Soyuz 2.1a Rocket Liftoff of Kikina, Menon & Dubrov in Kazakhstan

Russian Soyuz 2.1a Rocket Liftoff of Kikina, Menon & Dubrov in Kazakhstan








A Russian Soyuz rocket launched to the International Space Station with Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov, and Anna Kikina onboard, Tuesday, July 14, 2026, at 10:47 a.m. EST (7:47 p.m. local time) from the Baikonur Cosmodrome in Kazakhstan. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

At 1:52 p.m. EDT, their Russian Soyuz MS-29 spacecraft docked with the International Space Station’s Prichal module. NASA astronaut Anil Menon and Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina launched earlier  from the Baikonur Cosmodrome in Kazakhstan.

Once aboard, the trio will join NASA astronauts Jessica Meir, Jack Hathaway, and Chris Williams, European Space Agency astronaut Sophie Adenot, and Roscosmos cosmonauts Sergey Kud-Sverchkov, Sergei Mikaev, and Andrey Fedyaev of Russia.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: Roscosmos/NASA/Bill Ingalls
Date: July 14, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education

Introducing NASA Astronaut Anil Menon | International Space Station

Introducing NASA Astronaut Anil Menon | International Space Station

NASA astronaut Anil Menon is making his first trip to the International Space Station as part of Expeditions 74/75. Menon brings a wealth of experience as an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He previously served as a crew flight surgeon for both SpaceX flights and NASA expeditions aboard the station, monitoring astronaut health before, during, and after their missions. Now, Menon looks forward to expanding his knowledge of aerospace medicine as he experiences space firsthand as an astronaut.

A Russian Soyuz 2.1a rocket launched to the International Space Station with Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov, and Anna Kikina onboard, Tuesday, July 14, 2026, at the Baikonur Cosmodrome in Kazakhstan. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

After a two-orbit, three-hour trip to the station, their Soyuz MS-29 spacecraft will automatically dock at 1:56 p.m. to the Prichal module. Shortly afterward, hatches will open between the Soyuz and the orbiting laboratory.

Once aboard, the trio will join NASA astronauts Jessica Meir, Jack Hathaway, and Chris Williams, European Space Agency astronaut Sophie Adenot, and Roscosmos cosmonauts Sergey Kud-Sverchkov, Sergei Mikaev, and Andrey Fedyaev of Russia.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

To learn more about International Space Station research, operations, and its crews, visit: 

Video Credit: NASA's Johnson Space Center
Duration: 4 minutes, 23 seconds
Release Date: July 14, 2026

#NASA #Space #Science #ISS #Earth #SoyuzMS29 #Astronauts #AnilMenon #Physician #AerospaceMedicine #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #STEM #Education #HD #Video

Russian Soyuz Rocket Launch of Kikina, Menon & Dubrov in Kazakhstan

Russian Soyuz Rocket Launch of Kikina, Menon & Dubrov in Kazakhstan

A Russian Soyuz 2.1a rocket launches to the International Space Station with Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov, and Anna Kikina onboard, Tuesday, July 14, 2026, at the Baikonur Cosmodrome in Kazakhstan. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

After a two-orbit, three-hour trip to the station, their Soyuz MS-29 spacecraft will automatically dock at 1:56 p.m. to the Prichal module. Shortly afterward, hatches will open between the Soyuz and the orbiting laboratory.

Once aboard, the trio will join NASA astronauts Jessica Meir, Jack Hathaway, and Chris Williams, European Space Agency astronaut Sophie Adenot, and Roscosmos cosmonauts Sergey Kud-Sverchkov, Sergei Mikaev, and Andrey Fedyaev of Russia.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Video Credit: Roscosmos
Duration: 2 minutes, 33 seconds
Date: July 14, 2026

#NASA #Space #Science #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education #HD #Video

Russian Soyuz Rocket Launch of Kikina, Menon & Dubrov in Kazakhstan

Russian Soyuz Rocket Launch of Kikina, Menon & Dubrov in Kazakhstan





A Russian Soyuz rocket launches to the International Space Station with Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov, and Anna Kikina onboard, Tuesday, July 14, 2026, at the Baikonur Cosmodrome in Kazakhstan. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

After a two-orbit, three-hour trip to the station, their Soyuz MS-29 spacecraft will automatically dock at 1:56 p.m. to the Prichal module. Shortly afterward, hatches will open between the Soyuz and the orbiting laboratory.

Once aboard, the trio will join NASA astronauts Jessica Meir, Jack Hathaway, and Chris Williams, European Space Agency astronaut Sophie Adenot, and Roscosmos cosmonauts Sergey Kud-Sverchkov, Sergei Mikaev, and Andrey Fedyaev of Russia.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: NASA/Bill Ingalls
Date: July 14, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education

Kikina, Menon & Dubrov Board Russian Soyuz MS-29 Spacecraft Pre-launch

Kikina, Menon & Dubrov Board Russian Soyuz MS-29 Spacecraft Pre-launch


Expedition 75 Roscosmos cosmonaut Anna Kikina of Russia, top, NASA astronaut Anil Menon, middle, and Roscosmos cosmonaut Pyotr Dubrov of Russia, bottom, wave farewell prior to boarding their Soyuz MS-29 spacecraft for launch, Tuesday, July 14, 2026, at the Baikonur Cosmodrome in Kazakhstan.

The launch to the International Space Station is scheduled for 10:47 a.m. EDT (7:47 p.m. local time). The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

After a two-orbit, three-hour trip to the station, the spacecraft will automatically dock at 1:56 p.m. to the Prichal module. Shortly afterward, hatches will open between the Soyuz and the orbiting laboratory.

Once aboard, the trio will join NASA astronauts Jessica Meir, Jack Hathaway, and Chris Williams, European Space Agency astronaut Sophie Adenot, and Roscosmos cosmonauts Sergey Kud-Sverchkov, Sergei Mikaev, and Andrey Fedyaev of Russia.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: NASA/Bill Ingalls
Date: July 14, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education

Russian Orthodox Priest Blesses Crew's Soyuz Rocket Pre-launch in Kazakhstan

Russian Orthodox Priest Blesses Crew's Soyuz Rocket Pre-launch in Kazakhstan








A Russian Orthodox Priest blesses the Soyuz rocket, Monday, July 13, 2026, at the Baikonur Cosmodrome Site 31 launch pad in Kazakhstan. Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina of Russia are scheduled to launch to the International Space Station on Tuesday, July 14, 2026, at 10:47 a.m. EDT (7:47 p.m. local time) aboard their Soyuz MS-29 spacecraft from the Baikonur Cosmodrome. They can be seen here in quarantine, behind glass, during a press conference, July 13, 2026 at the Cosmonaut Hotel in Baikonur. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: NASA/Bill Ingalls
Date: July 13, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education

Menon, Dubrov & Kikina Crew Press Conference Pre-launch in Kazakhstan

Menon, Dubrov & Kikina Crew Press Conference Pre-launch in Kazakhstan

Expedition 75 crewmembers: NASA astronaut Anil Menon, left, Roscosmos cosmonauts Pyotr Dubrov, and Anna Kikina of Russia, right, are seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026, at the Cosmonaut Hotel in Baikonur, Kazakhstan.



Roscosmos cosmonaut Pyotr Dubrov of Russia is seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026 at the Cosmonaut Hotel in Baikonur, Kazakhstan.

Roscosmos cosmonaut Anna Kikina of Russia is seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026 at the Cosmonaut Hotel in Baikonur, Kazakhstan.
NASA astronaut Anil Menon is seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026, at the Cosmonaut Hotel in Baikonur, Kazakhstan.

Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina of Russia are scheduled to launch to the International Space Station on Tuesday, July 14, 2026, at 10:47 a.m. EDT (7:47 p.m. local time) aboard their Soyuz MS-29 spacecraft from the Baikonur Cosmodrome in Kazakhstan. They can be seen here in quarantine, behind glass, during a press conference, July 13, 2026 at the Cosmonaut Hotel in Baikonur. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credit: NASA/Bill Ingalls
Date: July 13, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education

Monday, July 13, 2026

NASA Astronaut Anil Menon Prepares for Russian Soyuz MS-29 Launch

NASA Astronaut Anil Menon Prepares for Russian Soyuz MS-29 Launch

NASA astronaut and Expedition 75 flight engineer Anil Menon poses in a spacesuit for a portrait at NASA's Johnson Space Center in Houston, Texas
From left, NASA astronaut Anil Menon and Roscosmos cosmonauts Anna Kikina and Pyotr Dubrov of Russia participate in a training session at Johnson Space Center in Houston, Texas, ahead of their upcoming mission to the International Space Station.
NASA astronaut and Expedition 75 crewmember Anil Menon, left, and his wife, NASA astronaut candidate Anna Menon, right, pose for a photograph between glass, Monday, July 13, 2026, at the Cosmonaut Hotel in Baikonur, Kazakhstan.
NASA astronaut Anil Menon is seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026, at the Cosmonaut Hotel in Baikonur, Kazakhstan.
NASA astronaut Anil Menon is seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026, at the Cosmonaut Hotel in Baikonur, Kazakhstan.
NASA astronaut Anil Menon is seen in quarantine, behind glass, during a press conference, Monday, July 13, 2026, at the Cosmonaut Hotel in Baikonur, Kazakhstan. 
NASA astronaut Anil Menon: "7/22/2015 NASA astronaut Kjell Lindgren launched from Baikonur and I was his flight doctor."
7/14/2026 "I’ll launch from Baikonur and he is supporting me from the flight operations directorate at NASA."
Expedition 75 emblem

Expedition 75 crewmembers: NASA astronaut Anil Menon, Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina of Russia are scheduled to launch to the International Space Station on Tuesday, July 14, 2026, at 10:47 a.m. EDT (7:47 p.m. local time) aboard their Soyuz MS-29 spacecraft from the Baikonur Cosmodrome in Kazakhstan. The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Image Credits: NASA's Johnson Space Center/Robert Markowitz/John Kraus/Josh Valcarcel
Dates: Jan. 8-July 14, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #MicrogravityLaboratory #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education

Crew Prepares for Russian Soyuz MS-29 Launch | International Space Station

Crew Prepares for Russian Soyuz MS-29 Launch | International Space Station

At the Baikonur Cosmodrome in Kazakhstan, the Russian Soyuz MS-29 prime and backup crews completed final pre-flight training ahead of the scheduled July 14, 2026, launch of NASA’s Anil Menon and Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina of Russia for a planned eight-month mission to the International Space Station. Their backups, NASA astronaut Deniz Burnham and cosmonauts Dmitri Petelin and Konstantin Borisov, joined them for the training sessions that took place June 29 through July 9. Footage includes the rollout of the Soyuz 2.1a launch vehicle to its launch pad in Baikonur on July 11.

The trio will spend about eight months aboard the orbiting laboratory before returning to Earth in spring 2027.

During his expedition, Menon will conduct scientific investigations and technology demonstrations intended to help humans prepare for future exploration missions to the Moon and Mars, and to provide benefits on Earth. Among the hundreds of experiments planned during his mission, he will participate in studies to better understand astronaut vein structure, blood flow, and blood composition in microgravity. He also will test producing intravenous fluids using the space station’s potable water.

The Soyuz MS-29 mission will be his first spaceflight after he was selected as part of NASA’s 2021 astronaut class. A native of Minneapolis, Menon is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He also has served as an expedition flight surgeon supporting the agency’s crew members aboard the space station.

NASA astronaut Anil Menon's Official Biography:

For more than 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and making research breakthroughs not possible on Earth. The space station helps NASA understand and overcome the challenges of human spaceflight, expand commercial opportunities in low Earth orbit, and build on the foundation for long-duration missions to the Moon, as part of the Artemis program, and to Mars.

To learn more about International Space Station research, operations, and its crews, visit: 

An international partnership of space agencies provides and operates the elements of the International Space Station (ISS). The principals are the space agencies of the United States, Russia, Europe, Japan, and Canada.

Video Credit: NASA's Johnson Space Center
Duration: 23 minutes
Release Date: July 13, 2026

#NASA #Space #Science #Astronomy #ISS #Earth #SoyuzRocket #SoyuzMS29 #Astronauts #AnilMenon #Cosmonauts #AnnaKikina #PyotrDubrov #Russia #Россия #Roscosmos #Роскосмос #HumanSpaceflight #InternationalCooperation #UnitedStates #Expedition74 #Expedition75 #Baikonur #Kazakhstan #Қазақстан #STEM #Education #HD #Video

China Long March 10B Reusable 1st Stage Sea Landing Wire Locking Mechanism

China Long March 10B Reusable 1st Stage Sea Landing Wire Locking Mechanism

A very close glimpse of the "hanger" structures on the Long March 10B's recoverable first stage, along with its grid fins for steering. The hanger has a matching locking mechanism for the cable on the drone ship landing platform. This is why it appears firmly attached to the ship's cable in landing footage. Work on the Long March 10B's unique sea-based cabling recovery system began in 2022 and the technology had its maiden flight in 2026—just four years later—a world first. This design eliminates the need for first stage landing legs, saving weight and fuel for a larger rocket payload capacity.

China succeeded in recovering part of its Long March 10B reusable rocket on its maiden launch on Friday, July 10, 2026, marking China's first successful controlled recovery of a carrier rocket's first stage and representing a major breakthrough in the country's reusable rocket technology. This makes China the second country after the United States to have demonstrated such a capability.

The Long March-10B is China's next-generation rocket built specifically for the commercial space market. In its reusable configuration, it can deliver 16 tonnes to low Earth orbit, supporting missions ranging from satellite Internet constellations to large commercial satellite launches.

Long March 10B's propulsion system has
>7 YF-100 engines
>5 gimballed for vector thrust control
>2 fixed-thrust

During reentry, two engines are fired for deceleration. At landing, three engines are fired again, then two shut down. One then continues until fully landed.

Developed by the China Academy of Launch Vehicle Technology (CALT) under the China Aerospace Science and Technology Corporation (CASC), the Long March-10B is a large, two-stage liquid-fueled rocket with a five-meter diameter core. The rocket utilizes liquid oxygen and kerosene for its first stage and liquid oxygen and methane for its second.

The Long March-10B rocket stands about 63 meters tall with a takeoff thrust of 890 tons.

The successful maiden flight of the Long March-10B on July 10, 2026, marks the 657th launch of the Long March rocket series.


Video Credit: China Academy of Launch Vehicle Technology (CALT)
Duration: 50 seconds
Release Date: July 12, 2026


#NASA #Space #Science #China #中国 #LongMarch10 #LongMarch10B #CZ10B #长征十号乙 #RocketFirstStages #ReusableRockets #WireLockingMechanism #CALT #SpaceTechnology #Engineering #Satellites #SatelliteConstellations #SpaceExploration #CommercialSpace #STEM #Education #HD #Video

Close-up: Omega Centauri Star Cluster Where Missing Black Hole Found | Hubble

Close-up: Omega Centauri Star Cluster Where Missing Black Hole Found | Hubble


The massive globular star cluster Omega Centauri has puzzled astronomers for decades. It should be filled with black holes left behind by exploding stars, yet evidence for them is scarce. Now, astronomers using archival data from the NASA/European Space Agency Hubble Space Telescope and supportive observations from the NASA/European Space Agency/Canadian Space Agency James Webb Space Telescope have finally located their first stellar-mass black hole in this cluster. Discovering the first of this missing black hole population will help refine current theories on black hole formation within environments, such as Omega Centauri.

Omega Centauri is visible from Earth with the naked eye and is one of the favorite celestial objects for stargazers in the southern hemisphere. Although the cluster is 17,700 light-years away, lying just above the plane of the Milky Way, it appears almost as large as the full Moon when seen from a dark rural area. The exact classification of Omega Centauri has evolved through time, as our ability to study it has improved. It was first listed in Ptolemy's catalogue nearly two thousand years ago as a single star. Edmond Halley reported it as a nebula in 1677, and in the 1830s the English astronomer John Herschel was the first to recognise it as a globular cluster. Omega Centauri consists of roughly 10 million stars that are gravitationally bound.

Though the astronomy community has previously found evidence with Hubble that an intermediate-mass black hole lurks at its center, models suggest that this star cluster should contain about 10,000 smaller, stellar-mass black holes. This notable population of black holes has evaded detection in previous studies, which used the radial velocity method [1] or looked for radio and X-ray emission from material falling onto the black holes.

A new discovery features a another approach, known as astrometry [2], to measure the very small movements of stars over time. By sifting through more than 20 years of Hubble archival data and pulling in recent Webb data to further refine the astrometric measurements, the team located a star orbiting an invisible object so hefty that it has to be a black hole. Dubbed oMEGACat BH-2, it is the first stellar-mass black hole detected within Omega Centauri, and it has surprising qualities. oMEGACat BH-2 has a lower-than-expected mass and, with its visible star companion, the black hole-star duo has the longest orbital period of any black hole binary system known to date.

The team’s findings were published in The Astrophysical Journal Letters.

“With the Hubble and Webb data, we were able to see the motion of the visible main sequence star [3] that is part of this binary, which is about 18,000 light-years away in the dense environment of Omega Centauri,” said the paper’s lead author Matthew Whitaker of the University of Utah, Salt Lake City, in the United States. “The precision of these measurements is incredible, down to a fraction of a pixel on Hubble and Webb’s detectors. It would not have been possible to find this black hole without these two space telescopes.”

The team’s findings refine a past study by a different group of scientists suggesting that this binary system included a neutron star. By expanding the Hubble data analyzed so that it included astrometric measurements from 2002 to 2023, and pulling in Webb near-infrared data to improve precision, the University of Utah-led team was able to better constrain the mass of the visible star’s dark companion, ruling out the neutron star possibility.

“While we already knew that the star was 0.78 solar masses, we can now calculate the black hole’s mass, which is 4.46 solar masses and therefore too heavy to be a neutron star. However, its mass is actually much lower than would be expected in a metal-poor environment like Omega Centauri. This is surprising and exciting,” said Anil Seth of the University of Utah, a coauthor of the study. “We now know that a metal-poor star should be able to form a black hole like this, and we need to figure out how that happens. This detection is providing some data to those who do that kind of modeling.”

Long time coming
Based on the precise data from Hubble and Webb, the team could chart the star’s path over 20-plus years. Fortunately, this was during its closest approach to its black hole companion when it moved the fastest across the sky. From the extensive data, the team determined that the visible star orbits oMEGACat BH-2 once every 94 years, making it the longest period black hole binary ever known.

Its long orbital period also gives a clue to the origin of this binary system. It was probably dynamically formed, meaning the star and its black hole companion did not start out together but rather found each other in this cluster. The researchers calculated that a system like oMEGACat BH-2 will survive for less than a billion years before it is torn apart by encounters with nearby stars, much shorter than the age of the cluster (approximately 12 billion years old).

“It’s important to understand black hole populations in globular clusters because there’s uncertainty about their physics and formation,” said Seth. “More specifically, understanding the process of forming black holes and then dynamically forming binaries is vital, because it affects our ability to interpret and understand gravitational wave events. Environments like Omega Centauri are the primary places where we think binaries are merging and creating these waves.”

The team’s discovery of stellar-mass black hole oMEGACat BH-2 with the Hubble-Webb dataset is just the start of finding these evasive black hole populations in globular star clusters.

“This new discovery highlights the immense legacy value of the Hubble Space Telescope archive” said Maximilian Häberle, postdoctoral fellow at the European Southern Observatory, who led the data reduction for the Hubble and Webb data. “It marks the second breakthrough from our oMEGACat astrometric re-analysis, following the confirmation of the intermediate-mass black hole in Omega Centauri."

Notes

[1] The component in the velocity of an object's motion that is moving away or toward an observer. By observing Doppler shifts in spectral lines, astronomers can derive the radial velocity and determine how fast objects are moving away from or toward us. Measuring such shifts in the light of a star can reveal the presence of exoplanets and brown dwarfs orbiting them.

[2] Astrometry measures the precise locations and movements of stars over time. The orbit of a planet can cause a star to wobble around in space in relation to nearby stars in the sky.

[3] A normal star forms from a clump of dust and gas in a stellar nursery. Over hundreds of thousands of years, the clump gains mass, starts to spin, and heats up. When the clump's core heats up to millions of degrees, nuclear fusion starts. This process occurs when two protons, the nuclei of hydrogen atoms, merge to form one helium nucleus. Fusion releases energy that heats the star, creating pressure that pushes against the force of its gravity. A star is born. Scientists call a star that is fusing hydrogen to helium in its core a main sequence star. Main sequence stars make up around 90% of the universe’s stellar population. They range in luminosity, color, and size—from a tenth to 200 times the Sun’s mass—and live for millions to billions of years.


Credits: NASA & ESA, N. Bartmann (ESA/Hubble)
Duration: 30 seconds
Date: Date: July 13, 2026

#NASA #Hubble #Astronomy #Space #Science #Stars #BlackHoles #StarClusters #OmegaCentauri #GlobularStarClusters #CentaurusConstellation #MilkyWayGalaxy #Cosmos #Universe #HubbleSpaceTelescope #HST #ESA #Europe #GSFC #STScI #UnitedStates #STEM #Education #HD #Video

The First of Omega Centauri Star Cluster’s Missing Black Holes Found | Hubble

The First of Omega Centauri Star Cluster’s Missing Black Holes Found | Hubble

Hubble image of globular star cluster Omega Centauri. It looks like a highly dense field of stars. There are stars that appear a bit larger and brighter than others with the majority of stars appearing blue, orange, and yellow. They are scattered mostly uniformly, like grains of sand. Toward the center they gradually become closer, creating a more luminous area at the globular star cluster’s core. A small red square frame is near the center. It connects to a square pullout in the top right corner. It shows the outlined area in greater detail. Among the blue- and orange-colored stars is a small blue-white dot that is highlighted by a small red circle.

A globular cluster, appearing as a highly dense and numerous collection of shining stars. A number appear a bit larger and brighter than others with the majority of stars appearing blue and orange. They are scattered mostly uniformly, but in the center they crowd together more and more densely, and merge into a stronger glow at the cluster’s core.

The massive globular star cluster Omega Centauri has puzzled astronomers for decades. It should be filled with black holes left behind by exploding stars, yet evidence for them is scarce. Now, astronomers using archival data from the NASA/European Space Agency Hubble Space Telescope and supportive observations from the NASA/European Space Agency/Canadian Space Agency James Webb Space Telescope have finally located their first stellar-mass black hole in this cluster. Discovering the first of this missing black hole population will help refine current theories on black hole formation within environments, such as Omega Centauri.

Omega Centauri is visible from Earth with the naked eye and is one of the favorite celestial objects for stargazers in the southern hemisphere. Although the cluster is 17,700 light-years away, lying just above the plane of the Milky Way, it appears almost as large as the full Moon when seen from a dark rural area. The exact classification of Omega Centauri has evolved through time, as our ability to study it has improved. It was first listed in Ptolemy's catalogue nearly two thousand years ago as a single star. Edmond Halley reported it as a nebula in 1677, and in the 1830s the English astronomer John Herschel was the first to recognise it as a globular cluster. Omega Centauri consists of roughly 10 million stars that are gravitationally bound.

Though the astronomy community has previously found evidence with Hubble that an intermediate-mass black hole lurks at its center, models suggest that this star cluster should contain about 10,000 smaller, stellar-mass black holes. This notable population of black holes has evaded detection in previous studies, which used the radial velocity method [1] or looked for radio and X-ray emission from material falling onto the black holes.

A new discovery features a another approach, known as astrometry [2], to measure the very small movements of stars over time. By sifting through more than 20 years of Hubble archival data and pulling in recent Webb data to further refine the astrometric measurements, the team located a star orbiting an invisible object so hefty that it has to be a black hole. Dubbed oMEGACat BH-2, it is the first stellar-mass black hole detected within Omega Centauri, and it has surprising qualities. oMEGACat BH-2 has a lower-than-expected mass and, with its visible star companion, the black hole-star duo has the longest orbital period of any black hole binary system known to date.

The team’s findings were published in The Astrophysical Journal Letters.

“With the Hubble and Webb data, we were able to see the motion of the visible main sequence star [3] that is part of this binary, which is about 18,000 light-years away in the dense environment of Omega Centauri,” said the paper’s lead author Matthew Whitaker of the University of Utah, Salt Lake City, in the United States. “The precision of these measurements is incredible, down to a fraction of a pixel on Hubble and Webb’s detectors. It would not have been possible to find this black hole without these two space telescopes.”

The team’s findings refine a past study by a different group of scientists suggesting that this binary system included a neutron star. By expanding the Hubble data analyzed so that it included astrometric measurements from 2002 to 2023, and pulling in Webb near-infrared data to improve precision, the University of Utah-led team was able to better constrain the mass of the visible star’s dark companion, ruling out the neutron star possibility.

“While we already knew that the star was 0.78 solar masses, we can now calculate the black hole’s mass, which is 4.46 solar masses and therefore too heavy to be a neutron star. However, its mass is actually much lower than would be expected in a metal-poor environment like Omega Centauri. This is surprising and exciting,” said Anil Seth of the University of Utah, a coauthor of the study. “We now know that a metal-poor star should be able to form a black hole like this, and we need to figure out how that happens. This detection is providing some data to those who do that kind of modeling.”

Long time coming
Based on the precise data from Hubble and Webb, the team could chart the star’s path over 20-plus years. Fortunately, this was during its closest approach to its black hole companion when it moved the fastest across the sky. From the extensive data, the team determined that the visible star orbits oMEGACat BH-2 once every 94 years, making it the longest period black hole binary ever known.

Its long orbital period also gives a clue to the origin of this binary system. It was probably dynamically formed, meaning the star and its black hole companion did not start out together but rather found each other in this cluster. The researchers calculated that a system like oMEGACat BH-2 will survive for less than a billion years before it is torn apart by encounters with nearby stars, much shorter than the age of the cluster (approximately 12 billion years old).

“It’s important to understand black hole populations in globular clusters because there’s uncertainty about their physics and formation,” said Seth. “More specifically, understanding the process of forming black holes and then dynamically forming binaries is vital, because it affects our ability to interpret and understand gravitational wave events. Environments like Omega Centauri are the primary places where we think binaries are merging and creating these waves.”

The team’s discovery of stellar-mass black hole oMEGACat BH-2 with the Hubble-Webb dataset is just the start of finding these evasive black hole populations in globular star clusters.

“This new discovery highlights the immense legacy value of the Hubble Space Telescope archive” said Maximilian Häberle, postdoctoral fellow at the European Southern Observatory, who led the data reduction for the Hubble and Webb data. “It marks the second breakthrough from our oMEGACat astrometric re-analysis, following the confirmation of the intermediate-mass black hole in Omega Centauri."

Notes

[1] The component in the velocity of an object's motion that is moving away or toward an observer. By observing Doppler shifts in spectral lines, astronomers can derive the radial velocity and determine how fast objects are moving away from or toward us. Measuring such shifts in the light of a star can reveal the presence of exoplanets and brown dwarfs orbiting them.

[2] Astrometry measures the precise locations and movements of stars over time. The orbit of a planet can cause a star to wobble around in space in relation to nearby stars in the sky.

[3] A normal star forms from a clump of dust and gas in a stellar nursery. Over hundreds of thousands of years, the clump gains mass, starts to spin, and heats up. When the clump's core heats up to millions of degrees, nuclear fusion starts. This process occurs when two protons, the nuclei of hydrogen atoms, merge to form one helium nucleus. Fusion releases energy that heats the star, creating pressure that pushes against the force of its gravity. A star is born. Scientists call a star that is fusing hydrogen to helium in its core a main sequence star. Main sequence stars make up around 90% of the universe’s stellar population. They range in luminosity, color, and size—from a tenth to 200 times the Sun’s mass—and live for millions to billions of years.


Credit: ESA/Hubble & NASA, M. Häberle (MPIA)
Date: July 13, 2026

#NASA #Hubble #Astronomy #Space #Science #Stars #BlackHoles #StarClusters #OmegaCentauri #GlobularStarClusters #CentaurusConstellation #MilkyWayGalaxy #Cosmos #Universe #HubbleSpaceTelescope #HST #ESA #Europe #GSFC #STScI #UnitedStates #STEM #Education