Connect with us

Published

on

The comet Tsuchinshan-ATLAS, also known as C/2023 A3, has become a stunning sight for observers in the Northern Hemisphere since October 11, 2024. After a long journey that began tens of thousands of years ago, this celestial body has recently passed near the Sun and is now making its way back towards Earth. It cane closest to our planet on October 12, coming within 44 million miles. However, this entire week astronomy enthusiasts can catch a sight of the comet in the evening skies. This is an excellent opportunity for skywatchers to catch a glimpse of this bright visitor.

Viewing the Comet

Astronomy enthusiasts looking to spot the comet should plan to do so shortly after sunset. On October 11, it was visible low on the western horizon, appearing just above the bright planet Venus. Bob King, contributing editor at Sky & Telescope, suggests using binoculars for a better view of this celestial phenomenon. About 40 minutes post-sunset, head to a location with an unobstructed view of the western horizon. From there, locate Venus and move about two and a half fists to the right to find the comet.

Best Days for Observation

The visibility of Tsuchinshan-ATLAS will improve significantly over the weekend. By October 12, the comet has risen higher in the sky, and it will now remain visible for a longer duration into twilight. By the evening of October 14, it will be positioned two fists above Venus for viewers in the northern United States. As the week progresses, conditions for viewing will become more favourable, even with some interference from moonlight.

Origins of the Comet

This comet was discovered independently by teams from China’s Purple Mountain Observatory and South Africa’s Asteroid Terrestrial-impact Last Alert System in early 2023. Its nucleus, a solid body composed of ice and dust, originated from the distant Oort Cloud. As it approaches the Sun, the heat causes the ice to evaporate, creating a spectacular tail that can extend for millions of miles.

The comet is expected to fade and become invisible to the naked eye by the end of October, although binoculars may still reveal it into early November. Once it departs from our vicinity, it will continue its journey into the outer solar system, likely never to return.

Continue Reading

Science

India’s first Astronaut Mission Oostponed to 2026 for Safety Checks

Published

on

By

India’s first Astronaut Mission Oostponed to 2026 for Safety Checks

India has delayed its inaugural astronaut mission under the Gaganyaan programme to 2026, pushing the timeline a year beyond the original schedule. The decision, announced by S. Somanath, Chairman of the Indian Space Research Organisation (ISRO), reflects a commitment to safety in light of recent aerospace industry setbacks. According to Somanath, India’s first manned mission will be preceded by multiple uncrewed test flights, with the first trial scheduled to launch in December 2023. The series of tests will validate crucial systems needed for a successful crewed mission, making way for India to join the ranks of the United States, Russia, and China in independently sending astronauts into space.

Safety First: ISRO’s Cautious Approach

ISRO’s extensive testing procedures and the addition of a fourth uncrewed test flight were outlined by Somanath during a recent talk in New Delhi. He cited the Boeing Starliner’s technical difficulties as a reminder of the importance of rigorous safety checks. ISRO’s Gaganyaan mission, also known as H1, aims to carry one or two astronauts to low Earth orbit, roughly 400 kilometres above the planet. Somanath shared that to avoid any similar mishaps, ISRO has undertaken a systematic approach, testing complex technologies developed entirely in-house.

Preparing for the Final Crewed Launch

To support the mission, the ISRO has conducted a number of preparatory tests, including the evaluation of emergency escape mechanisms and recovery systems. The G1 flight, expected later this year, will see a humanoid robot named Vyomitra onboard to test re-entry, parachute deployment, and a controlled splashdown in the Bay of Bengal. Following G1, three more uncrewed flights will complete the testing phase.

An Ambitious Training Regime for Astronauts

The programme’s crew has been undergoing intensive training in both India and overseas. Shubhanshu Shukla, a test pilot from the Indian Air Force and one of the astronauts in training, is set to join a mission to the International Space Station, working with Axiom Space in Houston. With former NASA astronaut Peggy Whitson as mission commander, Shukla’s experience will include operations such as navigation and docking – critical skills for the Gaganyaan mission’s success.

Government Funding Boosts ISRO’s Gaganyaan Efforts

The Indian government has recently increased Gaganyaan’s budget, adding 111 billion rupees to the project to support the final testing and crew training phases. With all modules now moving to ISRO’s Sriharikota spaceport, India’s first crewed space flight is moving closer to realisation. This development reflects the government’s commitment to advancing India’s space capabilities and ensuring the mission is conducted with the highest safety standards.

Continue Reading

Science

How the Tonga volcano eruption’s shockwave taught us about geohazards

Published

on

By

How the Tonga volcano eruption's shockwave taught us about geohazards

On January 15, 2022, the Hunga volcano near Tonga erupted in an explosive event that sent shockwaves across the planet. The eruption happened around the same time as Cyclone Cody. It created a shockwave powerful enough to trigger low, booming sounds that were heard from New Zealand to Alaska. It also caused a tsunami that impacted distant coastlines, marking the eruption as one of the most impactful volcanic events in recent memory.

Public Observations Fill Gaps in Scientific Data

Following the eruption, GNS Science, New Zealand’s geological agency, invited residents to share their experiences. More than 2,100 people responded, reporting everything from rumbling sounds and pressure in their ears to windows rattling and animals reacting to the disturbance. By comparing these accounts with data from seismic and atmospheric sensors, scientists confirmed that these firsthand experiences mirrored instrument readings closely.

According to Dr. Emily Lane, Senior Scientist at GNS, the information provided by people across New Zealand helped researchers see patterns in how the sound traveled across the country. Most reports of loud “booms” came from the North Island, suggesting the pressure wave from the eruption traveled from north to south. The details in these reports offered scientists insights that even precise instruments might not capture alone.

New Directions for Disaster Preparedness

The crowdsourced observations also revealed how people responded when they heard the booming sounds. Many checked on family or went outside to assess the situation, while others reached out to friends to make sure they were safe. Several respondents mentioned remembering previous volcanic eruptions, showing how past experiences can influence responses to natural events.

Researchers at GNS are now exploring ways to use these kinds of reports in tracking geohazards, like earthquakes and volcanic eruptions. Combining public observations with scientific data could enhance future disaster preparedness, giving communities an additional layer of awareness and response to support public safety and resilience.

For the latest tech news and reviews, follow Gadgets 360 on X, Facebook, WhatsApp, Threads and Google News. For the latest videos on gadgets and tech, subscribe to our YouTube channel. If you want to know everything about top influencers, follow our in-house Who’sThat360 on Instagram and YouTube.


Mahindra Teases XEV 9e and BE 6e Ahead of November 26 Launch



Recraft Introduces AI Image Generator Recraft V3 With Improved Capabilities

Related Stories

Continue Reading

Science

World’s Largest Ocean Predator-Prey Event Captured Off Norway’s Coast

Published

on

By

World's Largest Ocean Predator-Prey Event Captured Off Norway's Coast

A monumental predator-prey event in Norway’s coastal waters has captured scientists’ attention. It marks the largest observed marine feeding spectacle and highlighting significant dynamics in the food chain. Leading the research, Professor Nicholas Makris from MIT’s Department of Mechanical and Ocean Engineering, alongside his team, witnessed this unprecedented event where vast shoals of cod pursued spawning capelin, reshaping how scientists perceive these fish behaviours.

Capelin’s Spawning Journey and Role in the Ecosystem

Every February, billions of capelin—a small Arctic fish—migrate south from the Arctic ice edge to Norway’s coast to spawn. These migrations play a critical role, providing essential nourishment for seabirds, whales, and predatory fish like the Atlantic cod, and maintaining balance within the Arctic ecosystem. During the spawning season, cod take full advantage, building energy reserves that sustain them until the next migration cycle. The delicate predator-prey balance typically regulates itself naturally, but changes to this balance can have profound effects.

Innovative Sonic Imaging Maps Fish Movements

Makris’s team employed an advanced sonic imaging method called Ocean Acoustic Waveguide Remote Sensing (OAWRS) to observe these interactions on a large scale. This technology projects sound waves deep underwater to map fish populations in real-time over extensive distances. In an advance on prior techniques, they also used multispectral acoustic mapping, which distinguishes fish species by identifying their unique swim bladder resonances. Cod and capelin, for example, emit different resonant sounds—making it possible to differentiate them within large shoals.

Unprecedented Predator-Prey Formation Observed

On February 27, 2014, the capelin began moving in loosely formed clusters near the coast. As dawn approached, the capelin congregated into a dense shoal, spanning over six miles and amassing approximately 23 million fish. Reacting to this movement, nearly 2.5 million cod formed their own shoal, closing in on the capelin and consuming an estimated 10 million fish in hours. Shortly after this event, the formations dissolved, and the fish scattered.

Climate Change Concerns for Marine Populations

The implications of such large-scale predation events raise questions about the sustainability of marine species. Makris pointed out that as Arctic ice continues to retreat, capelin face longer journeys to spawning grounds, which could heighten their vulnerability. The study underscores how shifts in predator-prey dynamics due to environmental stresses could significantly impact species central to marine ecosystems.

Continue Reading

Trending