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NASA’s SpaceX Crew-7 Launches to International Space Station

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Credit: NASA

An international crew of four representing four countries is in orbit following a successful launch to the International Space Station at 3:27 a.m. EDT Saturday, Aug. 26, from Launch Complex 39A at NASA’s Kennedy Space Center in Florida. The agency’s SpaceX Crew-7 mission is the seventh commercial crew rotation mission for NASA.

A SpaceX Falcon 9 rocket launched the Dragon spacecraft into orbit carrying NASA astronaut Jasmin Moghbeli, ESA (European Space Agency) astronaut Andreas Mogensen, JAXA (Japan Aerospace Exploration Agency) astronaut Satoshi Furukawa, and Roscosmos cosmonaut Konstantin Borisov, for a science expedition aboard the orbital laboratory.

“Crew-7 is a shining example of the power of both American ingenuity and what we can accomplish when we work together,” said NASA Administrator Bill Nelson. “Aboard station, the crew will conduct more than 200 science experiments and technology demonstrations to prepare for missions to the Moon, Mars, and beyond, all while benefitting humanity on Earth. By partnering with countries around the world, NASA is engaging the best scientific minds to enable our bold missions, and it’s clear that we can do more – and we can learn more – when we work together.”

During Dragon’s flight, SpaceX will monitor a series of automatic spacecraft maneuvers from its mission control center in Hawthorne, California, and NASA teams will monitor space station operations throughout the flight from the Mission Control Center at the agency’s Johnson Space Center in Houston.

Named Endurance, the Dragon spacecraft will dock autonomously to the space-facing port of the station’s Harmony module at 8:39 a.m. Sunday, Aug. 27. NASA Television, the NASA app, and the agency’s website will provide live coverage of docking and hatch opening. NASA also will cover the welcome remarks by crew aboard the orbital outpost at 11:30 a.m.

Crew-7 will join the space station’s Expedition 69 crew of NASA astronauts Stephen Bowen, Woody Hoburg, and Frank Rubio, as well as UAE (United Arab Emirates) astronaut Sultan Alneyadi, and Roscosmos cosmonauts Sergey Prokopyev, Dmitri Petelin, and Andrey Fedyaev. For a short time, the number of crew aboard the space station will increase to 11 until Crew-6 members Bowen, Hoburg, Alneyadi, and Fedyaev return to Earth a few days later.

Crew-7 will conduct new scientific research to benefit humanity on Earth and prepare for human exploration beyond low Earth orbit. Experiments include the collection of microbial samples from the exterior of the space station, the first study of human response to different spaceflight durations, and an investigation of the physiological aspects of astronauts’ sleep. These are just some of the science experiments and technology demonstrations that will take place during their mission.

“The International Space Station is an incredible science and technology platform that requires people from all around the world to maintain and maximize its benefits to people on Earth,” said Ken Bowersox, associate administrator, Space Operations Mission Directorate at NASA Headquarters in Washington. “It’s great seeing Crew-7 launch with four crew members representing four countries who will live and work on humanity’s home in space as we continue the nearly 23 years of a continuous human presence aboard the microgravity laboratory.”

The Crew-7 mission enables NASA to maximize use of the space station, where astronauts testing technologies, performing science, and developing the skills needed to operate future commercial destinations in low Earth orbit and explore farther from Earth. Research conducted aboard the space station provides benefits for people on Earth and paves the way for future long-duration trips to the Moon through NASA’s Artemis missions.

Meet Crew-7

This is Moghbeli’s first trip into space since her selection as a NASA astronaut in 2017. The New York native earned a bachelor’s degree in aerospace engineering with information technology at the Massachusetts Institute of Technology in Cambridge, and a Master of Science in aerospace engineering from the Naval Postgraduate School in Monterey, California. Moghbeli, a helicopter and Marine Corps test pilot, has more than 150 combat missions and 2,000 hours of flight time in over 25 different aircraft. She also is a graduate of the U.S. Naval Test Pilot School in Patuxent River, Maryland. As mission commander, she is responsible for all phases of flight, from launch to re-entry. She will serve as an Expedition 69/70 flight engineer aboard the station. Follow @astrojaws on X.

Mogensen was selected as an ESA astronaut in 2009 and became the first Danish citizen in space after launching aboard a Soyuz for a 10-day mission to the space station in 2015. Mogensen is from Copenhagen, Denmark. He completed undergraduate studies and received a master’s degree in aeronautical engineering from Imperial College London in England before gaining his doctorate in aerospace engineering from the University of Texas at Austin. Mogensen has since served as a crew member for NASA Extreme Environment Mission Operations undersea missions 17 and 19. Mogensen was the European astronaut liaison officer at NASA Johnson from 2016 to 2022, working as a capsule communicator for astronauts aboard the station and as ground support for spacewalks. As the pilot on Crew-7, he is responsible for spacecraft systems and performance aboard the station, he will serve as an Expedition 69 flight engineer and Expedition 70 commander. Follow @astro_andreas on X.

Furukawa is making his second trip to space, having spent 165 days aboard the space station as part of Expeditions 28 and 29 in 2011. Furukawa is from Kanagawa, Japan, and was selected as a JAXA astronaut in 1999. He is a physician and received his medical degree from the University of Tokyo, and later a doctorate in medical science from the same university. Furukawa served as a crew member on the 13th NEEMO mission, and later, was appointed head of JAXA’s Space Biomedical Research Group. Aboard the station, he will become a flight engineer for Expedition 69/70. Follow @astro_satoshi on X.

Borisov is making his first trip to space and will serve as a mission specialist, working to monitor the spacecraft during the dynamic launch and entry phases of flight. He entered the Roscosmos Cosmonaut Corps as a test cosmonaut candidate in 2018 and will serve as a flight engineer for Expedition 69/70.

Learn more about NASA’s SpaceX Crew-7 mission and Commercial Crew Program at:

https://www.nasa.gov/commercialcrew

Source: NASA

Black History

The Legacy of Garrett Augustus Morgan Sr.: A Trailblazer in Invention, Business, and Community Leadership

Garrett Augustus Morgan Sr.: Inventor, businessman, and community leader whose legacy continues to inspire generations with his groundbreaking contributions.

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Garrett Augustus Morgan Sr., a prominent figure in American history, left an indelible mark through his remarkable contributions as an inventor, businessman, and community leader. Born on March 4, 1877, Morgan’s legacy continues to inspire generations.


One of Morgan’s most renowned inventions was the three-way traffic light, a pivotal innovation that revolutionized road safety and traffic management. Additionally, his creation of the protective ‘smoke hood’ proved instrumental during the 1916 tunnel construction disaster rescue, saving numerous lives and highlighting his commitment to public safety.

Beyond his inventions, Morgan ventured into the realm of haircare, developing a groundbreaking chemical hair-processing solution that led to the establishment of the successful “G. A. Morgan Hair Refining Company.” His entrepreneurial spirit and dedication to innovation paved the way for a complete line of haircare products.

Morgan’s influence extended beyond the business world; he actively engaged in the civic and political advancement of African Americans, particularly in Cleveland, Ohio, and surrounding areas. His efforts exemplified a commitment to fostering positive change and empowerment within his community.

In recognition of his significant contributions, several institutions and landmarks bear Morgan’s name, honoring his legacy. From the Garrett A. Morgan Cleveland School of Science to the Garrett A. Morgan Water Treatment Plant, his impact is immortalized in various locations across the United States.

Notably, Morgan’s legacy was nationally recognized at the Emancipation Centennial Celebration in Chicago in August 1963, underscoring his enduring influence and importance in American history. His inclusion in the book “100 Greatest African Americans” by Molefi Kete Asante further solidifies his place among the most influential figures in African American history.

Morgan’s inventions continue to captivate audiences, with his safety hood featured on popular television shows like “Inventions that Shook the World” and “Mysteries at the Museum,” showcasing the lasting impact of his innovations on society.

As an honorary member of Alpha Phi Alpha fraternity, Morgan’s dedication to excellence and service continues to inspire individuals to strive for greatness and make a positive difference in their communities.

The remarkable life and achievements of Garrett Augustus Morgan Sr. serve as a testament to the power of innovation, entrepreneurship, and advocacy, leaving a lasting legacy that resonates with generations past, present, and future.

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NASA Tech Contributes to Soft Moon Landing, Agency Science Underway

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For the first time in more than 50 years, new NASA science instruments and technology demonstrations are operating on the Moon following the first successful delivery of the agency’s CLPS (Commercial Lunar Payload Services) initiative.

On Feb. 22, 2024, Intuitive Machines’ Odysseus lunar lander captures a wide field of view image of Schomberger crater on the Moon approximately 125 miles (200 km) uprange from the intended landing site, at approximately about 6 miles (10 km) altitude.
Credit: Intuitive Machines

Intuitive Machines’ Nova-C lander, called Odysseus, completed a seven-day journey to lunar orbit and executed procedures to softly land near Malapert A in the South Pole region of the Moon at 5:24 p.m. CST on Feb. 22. The lander is healthy, collecting solar power, and transmitting data back to the company’s mission control in Houston. The mission marks the first commercial uncrewed landing on the Moon.

Carrying six NASA science research and technology demonstrations, among other customer payloads, all NASA science instruments completed transit checkouts en route to the Moon. A NASA precision landing technology demonstration also provided critical last-minute assistance to ensure a soft landing. As part of NASA’s Artemis campaign, the lunar delivery is in the region where NASA will send astronauts to search for water and other lunar resources later this decade.

“For the first time in more than half a century, America returned to the Moon. Congratulations to Intuitive Machines for placing the lunar lander Odysseus carrying NASA scientific instruments to a place no person or machine has gone before, the lunar South Pole,” said NASA Administrator Bill Nelson. “This feat from Intuitive Machines, SpaceX, and NASA demonstrates the promise of American leadership in space and the power of commercial partnerships under NASA’s CLPS initiative. Further, this success opens the door for new voyages under Artemis to send astronauts to the Moon, then onward to Mars.” 

During the journey to the Moon, NASA instruments measured the quantity of cryogenic engine fuel as it has been used, and while descending toward the lunar surface, teams collected data on plume-surface interactions and tested precision landing technologies.

Odysseus’ surface operations are underway and expected to take place through Thursday, Feb. 29.

New lunar science, technology

NASA’s Navigation Doppler Lidar for Precise Velocity and Range Sensing (NDL) guidance system for descent and landing ultimately played a key role in aiding the successful landing. A few hours ahead of landing, Intuitive Machines encountered a sensor issue with their navigation system and leaned on NASA’s guidance system for an assist to precisely land. NASA’s instrument operates on the same principles of radar and uses pulses from a laser emitted through three optical telescopes. It measures speed, direction, and altitude with high precision during descent and touchdown.

“We are thrilled to have NASA on the Moon again, and proud of the agency’s contribution to the successful landing with our NDL technology. Congratulations for completing this first lunar delivery for NASA, paving the way for a bright future for our CLPS initiative,” said Nicky Fox. “Some of the NASA science instruments on this mission will bring us insight on lunar plume interactions and conduct radio astronomy. The valiant efforts and innovation demonstrated by Intuitive Machines is exemplary and we are excited for the upcoming lunar deliveries that will follow this first mission.”  

Now that they are on the lunar surface, NASA instruments will focus on investigating lunar surface interactions and radio astronomy. The Odysseus lander also carries a retroreflector array that will contribute to a network of location markers on the Moon for communication and navigation for future autonomous navigation technologies.

Additional NASA hardware aboard the lander includes:

  • Lunar Node 1 Navigation DemonstratorA small, CubeSat-sized experiment that will demonstrate autonomous navigation that could be used by future landers, surface infrastructure, and astronauts, digitally confirming their positions on the Moon relative to other spacecraft, ground stations, or rovers on the move.
  • Laser Retroreflector Array: A collection of eight retroreflectors that enable precision laser ranging, which is a measurement of the distance between the orbiting or landing spacecraft to the reflector on the lander. The array is a passive optical instrument and will function as a permanent location marker on the Moon for decades to come.   
  • Radio Frequency Mass Gauge: A technology demonstration that measures the amount of propellant in spacecraft tanks in a low-gravity space environment. Using sensor technology, the gauge will measure the amount of cryogenic propellant in Nova-C’s fuel and oxidizer tanks, providing data that could help predict fuel usage on future missions.   
  • Radio-wave Observations at the Lunar Surface of the Photoelectron Sheath: The instrument will observe the Moon’s surface environment in radio frequencies, to determine how natural and human-generated activity near the surface interacts with and could interfere with science conducted there.
  • Stereo Cameras for Lunar Plume-Surface Studies: A suite of four tiny cameras to capture imagery showing how the Moon’s surface changes from interactions with the spacecraft’s engine plume during and after descent.

NASA is committed to supporting its U.S. commercial vendors as they navigate the challenges of sending science and technology to the surface of the Moon.

“In daring to confront one of humanity’s greatest challenges, Intuitive Machines created an entire lunar program that has ventured farther than any American mission to land on the Moon in over 50 years,” said Altemus. “This humbling moment reminds us that pursuing the extraordinary requires both boldness and resilience.”

For more information about CLPS, visit:

https://www.nasa.gov/clps

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The Enigmatic Zodiacal Light: A Celestial Phenomenon Around the March Equinox

Witness the ethereal glow of the zodiacal light around the March equinox, a celestial spectacle connecting us to the mysteries of the cosmos.

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As the March equinox approaches, a mystical glow known as the zodiacal light graces the evening sky, captivating skywatchers with its ethereal presence. This luminous cone, visible just after twilight fades, enchants those in the Northern Hemisphere from late February to early March. Glimpsing this elusive spectacle requires a keen eye and a dark sky, offering a unique connection to the cosmos.

What is a false dawn?

The zodiacal light, often mistaken for lingering twilight or distant city lights, holds a fascinating origin story. It arises from sunlight reflecting off dust grains orbiting the sun in the inner solar system. Initially thought to be remnants from our solar system’s formation, recent theories suggest a Martian origin. These dust grains, ranging from millimeter-sized to micron-sized, form a delicate pathway mirroring the sun and moon’s journey across the ecliptic, the plane of our solar system.

For stargazers in the Southern Hemisphere, the zodiacal light presents itself as a hazy pyramid in the east before dawn, offering a celestial dance of light and shadow. Capturing this celestial ballet on camera can be a rewarding experience, showcasing the beauty of our interconnected universe.

The best times to witness this cosmic display vary with the seasons. Spring heralds the zodiacal light in the evening, while autumn reveals its splendor before dawn. The optimal viewing window extends from late August to early November in the Northern Hemisphere and from late February to early May in the Southern Hemisphere, aligning with the equinoxes.

To behold this enigmatic light, one must seek out a dark sky location, free from the glare of city lights. The zodiacal light’s milky radiance surpasses that of the summer Milky Way, offering a serene and awe-inspiring sight. Whether observed after dusk in spring or before dawn in autumn, this celestial phenomenon promises a glimpse into the vastness of our solar system.

As we marvel at the zodiacal light’s gentle glow, we are reminded of the interconnectedness of Earth and the cosmos. So, next time you find yourself under a starlit sky around the equinox, remember to cast your gaze towards the heavens and witness the celestial dance of the zodiacal light.

Source: EarthSky

https://earthsky.org/astronomy-essentials/zodiacal-light-false-dusk-how-to-see-explanation/
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