Nasa rocket that will fly astronauts around Moon takes shape ahead of 2026 launch
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Khaleej Times
21 hours ago
- Khaleej Times
Nasa astronaut Anil Menon to embark on first mission to International Space Station
Nasa astronaut Anil Menon has been assigned his first mission to the International Space Station, serving as a flight engineer and Expedition 75 crew member, Nasa said in its official statement. According to Nasa, Menon will launch aboard the Roscosmos Soyuz MS-29 spacecraft in June 2026, accompanied by Roscosmos cosmonauts Pyotr Dubrov and Anna Kikina. After launching from the Baikonur Cosmodrome in Kazakhstan, the trio will spend approximately eight months aboard the orbiting laboratory. During his expedition, Menon will conduct scientific investigations and technology demonstrations to help prepare humans for future space missions and benefit humanity. Selected as a Nasa astronaut in 2021, Menon graduated with the 23rd astronaut class in 2024. After completing initial astronaut candidate training, he began preparing for his first space station flight assignment. Menon was born and raised in Minneapolis and is an emergency medicine physician, mechanical engineer, and colonel in the United States Space Force. He was born to Indian and Ukrainian parents, the Nasa statement added. Menon holds a bachelor's degree in neurobiology from Harvard University in Cambridge, Massachusetts, a master's degree in mechanical engineering, and a medical degree from Stanford University in California. Menon completed his emergency medicine and aerospace medicine residency at Stanford and the University of Texas Medical Branch in Galveston. In his spare time, he still practices emergency medicine at Memorial Hermann's Texas Medical Center and teaches residents at the University of Texas' residency programme. Menon served as SpaceX's first flight surgeon, helping to launch the first crewed Dragon spacecraft on NASA's SpaceX Demo-2 mission and building SpaceX's medical organisation to support humans on future missions. He served as a crew flight surgeon for both SpaceX flights and NASA expeditions aboard the space station. For nearly 25 years, people have lived and worked continuously aboard the International Space Station, advancing scientific knowledge and conducting critical research for the benefit of humanity and our home planet. Space station research supports the future of human spaceflight as Nasa looks toward deep space missions to the Moon under the Artemis campaign and in preparation for future human missions to Mars, as well as expanding commercial opportunities in low Earth orbit and beyond.
Al Etihad
2 days ago
- Al Etihad
GEMS Education launches GEMS School Management to deliver world-class schools globally
1 July 2025 10:07 DUBAI (ALETIHAD)GEMS Education Tuesday launched GEMS School Management (GSM), a bold new venture designed to deliver exceptional, future-ready schools in partnership with governments, investors, developers, school groups, and communities programme has already attracted interest, with advanced talks ongoing with customers in eight different markets and more inquiries on the on more than 65 years of excellence in global K-12 education, GSM offers end-to-end solutions – from school design, curriculum planning, and operations to staffing, training, systems integration, and safeguarding for the development of new schools or the transformation of existing proprietary ASPIRE model – a 'school-in-a-box' framework developed by leading educators across GEMS' global network - will remain at the heart of the process. It will enable partners to deploy fit-for-purpose schools – British, American, International Baccalaureate (IB), Indian, or local curriculum – that meet the highest international standards while reflecting community model includes curriculum plans, architectural guidance, recruitment and training, technology infrastructure, and pre-developed operational systems and processes. GSM is designed to take the complexity out of launching or elevating a school for customers, providing safeguarding protocols, education practices, data systems, marketing strategies, and timetable frameworks to open a high-quality school. Partners benefit from GEMS' ability to recruit top-tier educators, deliver staff training, and provide digital systems that support teaching, learning, and parent engagement. Robert Tarn CBE, Managing Director of GEMS School Management, said at the global launch of GSM: 'We're working with partners who want more than just good schools – they want schools that set benchmarks. GSM brings the full force of the GEMS ecosystem to the table – from outstanding educators and global best practice to fully costed, turnkey models. 'Whether you're a government, a developer, or a school group seeking to scale or improve outcomes, we are ready to help you deliver.'He added: 'Our partners often have the vision, the site, and the capital – what they need is deep educational expertise. That's where GSM comes in. We've done the thinking, built the model, and can be ready to open a high-impact school – with the right team, systems and students – in as little as 12 months.'Partners can select from multiple curriculum-aligned models, each customisable to the social, regulatory, and financial landscape of the location. In addition to new builds, GSM also offers enhancement contracts for existing schools and systems, helping them scale, improve, and benefit from GEMS' economies of scale and procurement advantages. Sunny Varkey, Chairman and Founder of GEMS Education, said: 'Every child deserves access to world-class education, no matter where they are. GSM is how we share our legacy, our expertise, and our belief in education's power to change lives with partners who share our vision. Together, we will build schools that shape not only futures, but nations.'
Arabian Post
3 days ago
- Arabian Post
Earth's Inner Dynamo Emerges as Key to Oxygen Stability
Earth's magnetic field strength and atmospheric oxygen levels have oscillated in tandem for around 540 million years, according to a NASA-led study, pointing to a deep-Earth process that could knit our planet's life-supporting systems more tightly than previously understood. Mapping trends from the Cambrian explosion to modern times, scientists found that periods of peak geomagnetic force—often logged in minerals as they cool within erupting magma—align closely with elevated oxygen levels, inferred from charcoal deposits and geochemical signatures in ancient rocks. Lead author Weijia Kuang of NASA's Goddard Space Flight Center asserts this constitutes the first statistically robust link between the magnetic dipole and atmospheric oxygen across geological time. ADVERTISEMENT Rises in both parameters registered pronounced peaks during the span from around 330 to 220 million years ago—coinciding with both a supercontinent cycle and heightened wildfire evidence—suggesting an underlying mechanism shorter than the age of the planet but far-reaching in effect. The research, appearing in Science Advances on 13 June 2025, assigns a leading role to Earth's magnetic field in potentially preserving atmospheric oxygen. By deflecting solar and cosmic radiation, the magnetic shield may slow atmospheric erosion and guard oxygen-producing photosynthetic lifeforms from harmful radiation. Alternate hypotheses suggest plate tectonics as a grand orchestrator. As continental drift drives crustal recycling and alters the thermal and chemical gradient at the core–mantle boundary, it may influence both geomagnetic behaviour and oxygen cycling—mirroring the oxygen flux through time. 'The correlation raises the possibility that both the magnetic field strength and the atmospheric oxygen level are responding to a single underlying process, such as the movement of Earth's continents,' said co-author Benjamin Mills from the University of Leeds. Despite the strong correlation—approximately 0.72 across data spanning 540 million years—uncertainty lingers over cause and effect. The team points to a negligible lag between the datasets, but concedes that whether the magnetic field drove oxygen dynamics, vice versa, or if both were shaped by tectonic activity, remains unresolved. An intriguing outlier arose from nearly 591–565 million years ago, when a weaker geomagnetic field coincided with a dramatic oxygen spike and a surge in marine biodiversity, implying that at times other forces may dominate. Demonstrations from Mars reinforce the protective value of a magnetic field: as its field waned around four billion years ago, atmospheric loss ensued, drying the planet's surface and chilling its climate. If validated, this geophysical coupling could reshape the parameters scientists use in the search for life on other rocky worlds. As Ravi Kopparapu from NASA notes, understanding this interplay is vital—and yet still in preliminary stages. The team intends to probe further back in time, seeking whether earlier supercontinents beyond Pangaea exhibited the same synchronicity. They also aim to include other biologically relevant atmospheric constituents—such as nitrogen—to evaluate whether they too display linked fluctuations. Collaboration across geology, geochemistry and planetary science appears essential. As Kopparapu explains: 'One single mind cannot comprehend the whole system of the Earth. We're like kids playing with Legos… trying to fit all of it together and see what's the big picture'.
