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Elon Musk’s rocket company SpaceX launched a four-person crew on a trip to the International Space Station early on Thursday, with a Russian cosmonaut and United Arab Emirates astronaut joining two NASA crewmates on the flight.

The SpaceX launch vehicle, consisting of a Falcon 9 rocket topped with an autonomously operated Crew Dragon capsule called Endeavour, lifted off at 12:34am EST (11:04am IST) from NASA’s Kennedy Space Center in Cape Canaveral, Florida.

A live NASA webcast showed the 25-story-tall spacecraft ascending from the launch tower as its nine Merlin engines roared to life in billowing clouds of vapour and a reddish fireball that lit up the pre-dawn sky.

The launch was expected to accelerate the Crew Dragon to an orbital velocity of 17,500 miles per hour (28,164kph), more than 22 times the speed of sound.

The flight came 72 hours after an initial launch attempt was scrubbed in the final minutes of countdown early on Monday due to a clog in the flow of engine-ignition fluid. NASA said the problem was fixed by replacing a clogged filter and purging the system.

The trip to the International Space Station (ISS), a laboratory orbiting some 250 miles (420 km) above Earth, was expected to take nearly 25 hours, with rendezvous planned for about 1:15am. EST (12:00am IST) on Friday as the crew begins a six-month science mission in microgravity.

Designated Crew 6, the mission marks the sixth long-term ISS team that NASA has flown aboard SpaceX since the private rocket venture founded by Musk – billionaire CEO of electric car maker Tesla and social media platform Twitter – began sending American astronauts to orbit in May 2020.

The latest ISS crew was led by mission commander Stephen Bowen, 59, a onetime US Navy submarine officer who has logged more than 40 days in orbit as a veteran of three space shuttle flights and seven spacewalks.

Fellow NASA astronaut Warren “Woody” Hoburg, 37, an engineer and commercial aviator designated as the Crew 6 pilot, was making his first spaceflight.

The Crew 6 mission also is notable for its inclusion of UAE astronaut Sultan Alneyadi, 41, only the second person from his country to fly to space and the first to launch from US soil as part of a long-duration space station team. UAE’s first-ever astronaut launched to orbit in 2019 aboard a Russian spacecraft.

Rounding out the four-man Crew 6 was Russian cosmonaut Andrey Fedyaev, 42, who like Alneyadi is an engineer and spaceflight rookie designated as a mission specialist for the team.

Fedyaev is the second cosmonaut to fly aboard an American spacecraft under a renewed ride-sharing deal signed in July by NASA and the Russian space agency Roscosmos, despite heightened tensions between Washington and Moscow over Russia’s invasion of Ukraine.

The Crew 6 team will be welcomed aboard the space station by seven current ISS occupants – three U.S. NASA crew members, including commander Nicole Aunapu Mann, the first Native American woman to fly to space, along with three Russians and a Japanese astronaut.

The ISS, about the length of a football field, has been continuously operated for more than two decades years by a U.S.-Russian-led consortium that includes Canada, Japan and 11 European countries.

The Crew 6 mission follows two recent mishaps in which Russian spacecraft docked to the orbiting laboratory sprang coolant leaks apparently caused micrometeoroids, tiny grains of space rock, streaking through space and striking the craft at high velocity.

One of the affected Russian vehicles was a Soyuz crew capsule that had carried two cosmonauts and an astronaut to the space station in September for a six-month mission now set to end in March. An empty replacement Soyuz to bring them home arrived at the space station on Saturday.

© Thomson Reuters 2023

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Mice now use VR headsets to help scientists study brain activity and behaviour

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December 27, 2024

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Mice now use VR headsets to help scientists study brain activity and behaviour

Innovative VR headsets have been designed for mice, enabling scientists to study brain activity in highly immersive environments. Using these headsets, researchers can observe neural responses during specific behaviours, potentially unlocking new understanding of human neurological disorders. Crafted from readily available components such as smartwatch screens and miniature lenses, these devices are seen as a breakthrough in neuroscience research, offering precise insights into how mammals interact with their surroundings.

Development and Functionality of the Headsets

According to a study published in Nature Methods, the VR headsets—known as “MouseGoggles”—are paired with a spherical treadmill that keeps the mice stationary while simulating movement. These goggles attach to the mice’s heads, displaying sharp, high-contrast visuals that mimic real-world experiences. Dr. Matthew Isaacson, a postdoctoral researcher at Cornell University, stated in a press release that prior methods using projector screens failed to engage mice effectively, but the new goggles produced significant behavioural responses, such as startled reactions to simulated predators.

Verification of the Technology

To confirm the efficacy of the MouseGoggles, researchers examined activity in two critical brain regions. The primary visual cortex revealed that the mice could perceive the projected images clearly, while the hippocampus indicated accurate mapping of virtual environments. These findings underline the potential for the technology to deepen understanding of how mammals navigate and interact with their surroundings.

Future Applications and Advancements

Dr. Chris Schaffer, Professor of Biomedical Engineering at Cornell, noted to phys.org that these headsets could transform neuroscience by enabling the study of naturalistic behaviours. Plans are underway to create lightweight versions for larger rodents like rats and to incorporate sensory elements such as smell and taste into the VR experience. This expanded capability could provide more comprehensive insights into complex decision-making processes and sensory integration.
The research team believes this technology could significantly enhance studies into conditions like Alzheimer’s, offering critical understanding of spatial navigation and memory deficits.

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How Human Activity Fuels Pandemics: Climate Change and Biodiversity at the Core

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December 27, 2024

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How Human Activity Fuels Pandemics: Climate Change and Biodiversity at the Core

The rise in pandemics has been attributed to disruptions caused by human activities to the planet’s ecosystems. Infectious diseases, which have historically resulted in significant loss of life, are appearing more frequently. This resurgence has raised concerns among experts about the factors driving this trend. Modern advancements in science, including vaccinations and antibiotics, initially seemed to have controlled these outbreaks. Yet, the occurrence of diseases such as HIV/AIDS, SARS, and COVID-19 highlights the ongoing challenges.

Ecosystem Disruption and Its Role

According to a study published by researchers from the University of Adelaide, the disruption of ecosystems is central to the emergence of pandemics. Healthy ecosystems regulate diseases by maintaining natural balances, including predator-prey dynamics and vegetation growth. However, activities such as deforestation, climate change, and biodiversity loss have altered these balances, enabling pathogens to spread more easily. For instance, changes in climate have allowed disease-carrying mosquitoes to expand their range into previously temperate regions.

The Impact of Biodiversity Loss

Reports have indicated that biodiversity loss has created opportunities for pathogens to move from wildlife to humans. The case of vampire bats in South America is often cited, where deforestation and agricultural expansion provided new feeding grounds, leading to the spread of rabies. Similarly, the HIV virus emerged through the hunting of apes for food, eventually spreading globally. These examples underscore the link between human activity and the rise of zoonotic diseases.

The Importance of Planetary Health

Experts advocate for a “planetary health” approach, emphasising the interdependence of human health and the natural environment. This strategy aims to address fundamental drivers like climate change while also tackling immediate causes such as wildlife-human interactions. Educational institutions are increasingly integrating planetary health into their curricula to equip future leaders with tools to mitigate pandemic risks effectively.

It is widely believed that without addressing the root causes, the likelihood of future pandemics remains significant. Efforts to balance human development with ecological preservation have been suggested as key to safeguarding global health.

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Parker Solar Probe to make record-breaking Sun flyby on Christmas Eve

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December 27, 2024

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Parker Solar Probe to make record-breaking Sun flyby on Christmas Eve

The Parker Solar Probe, a mission by NASA, is set to make its closest approach to the Sun on Christmas Eve, December 24, 2024. This milestone flyby is expected to occur at precisely 6:53 a.m. EST, as reported by multiple sources. The spacecraft will reach an unprecedented proximity of 6.1 million kilometers from the Sun’s surface, marking the 22nd close encounter of its mission. This approach represents a record-breaking moment in space exploration, achieved through seven Venus flybys that incrementally brought the probe closer to the Sun.

Details of the Flyby

According to mission updates from NASA and the Johns Hopkins Applied Physics Laboratory (JHUAPL), the Parker Solar Probe will travel at a staggering speed of 692,000 kilometers per hour during its journey through the Sun’s outer atmosphere, or corona. This high-speed encounter aims to shed light on the corona’s extreme temperatures and its role in solar wind generation. The probe’s heat shield, built to endure temperatures up to 1,377 degrees Celsius, will ensure the spacecraft remains operational as it navigates the intense environment.

Updates and Tracking

While the event itself will not be broadcast live, updates will be provided through NASA’s official channels and the Parker Solar Probe mission blog. A status check from the spacecraft is expected on December 27, followed by the first telemetry data on January 1, 2025. The initial scientific findings, including data on solar activity, are anticipated by late January.

What Comes Next

This flyby is part of the probe’s seven-year mission, concluding in 2025 after a total of 24 solar encounters. Subsequent flybys in March and June 2025 will continue to gather valuable data, with decisions about the probe’s orbit to be made thereafter, as per the mission team’s updates.

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