Connect with us

Published

on

The Greater Short-Horned Lizard, scientifically known as Phrynosoma hernandesi, is a remarkable reptile found across North and Central America. This unique lizard has earned the nickname “horny toad” due to its flattened body shape and distinctive spiky horns, which give it an appearance more akin to amphibians than traditional reptiles. Typically measuring around 6 inches (15 cm) in length, this creature is primarily insectivorous, feeding on ants, spiders, and various small insects. Its adaptations for survival are truly intriguing.

Defensive Mechanisms

One of the most striking features of the Greater Short-Horned Lizard is its unusual method of defence. When threatened, it can squirt a jet of blood from its eyes, projecting it up to 5 feet (1.5 meters) away. This ability, known as autohaemorrhaging, involves restricting blood flow to increase pressure in the head, causing tiny blood vessels to burst around the eyes. This blood not only confuses potential predators but also contains unpleasant chemicals, making it unpalatable to canines such as dogs and foxes.

In addition to this blood-squirting defence, the Greater Short-Horned Lizard can inflate its body to double its size when confronted by a predator. This inflation makes it harder for potential attackers to swallow it, offering an additional layer of protection. The lizard’s mottled skin also aids in camouflage, allowing it to blend seamlessly into its surroundings, which is vital for evading larger threats.

Conclusion

The Greater Short-Horned Lizard exemplifies the incredible adaptations of wildlife. Its unique features, including its blood-squirting ability and impressive camouflage, make it a fascinating subject of study for herpetologists. By understanding these adaptations, we can gain deeper insights into the resilience and survival strategies of this remarkable reptile.

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.


Growing New Forests in Mexico Could Help Protect Oyamel Forests and Monarch Butterflies



Oppo Enco X3 Design, Colour Options, Key Features Revealed Ahead of October 24 Launch

Continue Reading

Science

Japan Launches World’s First Wooden Satellite LignoSat into Space

Published

on

By

Japan Launches World's First Wooden Satellite LignoSat into Space

The first wooden satellite, built by Japanese researchers, has embarked on its journey to space. Created by a collaboration between Kyoto University and Sumitomo Forestry, LignoSat was launched aboard a SpaceX mission and will orbit 400 km above Earth, circling the planet for six months. The satellite, crafted from honoki wood—a type of magnolia native to Japan—will test the viability of wood as a sustainable material in the harsh conditions of space, which include temperature swings between -100 and 100 degrees Celsius. This mission marks a potential breakthrough in the use of renewable materials for space exploration.

Proving Wood’s Potential in Space

LignoSat is a compact, palm-sized satellite constructed without screws or glue, using traditional Japanese woodworking techniques. The project is led by Takao Doi, a former astronaut and now a professor at Kyoto University. Doi believes wood could serve as a core building material for future space exploration and possibly for lunar and Martian settlements. Unlike metals that produce aluminium oxide during atmospheric re-entry, wood has a minimal environmental impact as it simply burns up. If successful, LignoSat could change the way we think about satellite production, possibly leading to a shift away from metals in satellite design.

Aiming for Sustainability in Space

Researcher Kenji Kariya from Sumitomo Forestry Tsukuba Research Institute highlights the satellite’s design as a demonstration of wood’s durability in extreme conditions. The mission will also assess wood’s ability to mitigate radiation impact on semiconductors—an important factor for potential applications in data centres and other technology requiring protection from radiation. Koji Murata, a Kyoto University forest science professor, notes that while wood was once commonly used in early 20th-century aircraft, its application in space is unprecedented and could represent a new frontier for the timber industry as humanity pushes further into space.

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.


India-UK Team Proposes Experiment to Test Quantum Behaviour of Gravity with Diamond Crystals



Samsung Galaxy S25+ Spotted on Geekbench With Exynos 2500 SoC, Android 15

Continue Reading

Science

ndia-UK Physics Team Proposes Experiment to Test Gravity’s Quantum Nature

Published

on

By

ndia-UK Physics Team Proposes  Experiment to Test Gravity's Quantum Nature

A collaboration of physicists from India and the UK has designed an experiment to examine if gravity exhibits quantum behaviour. The experiment is spearheaded by Professor Sougato Bose from University College London (UCL) and also involves Dr Debarshi Das. With this new experiment,  the team aims to explore whether gravitational interactions follow the peculiar rules of quantum mechanics, similar to other fundamental forces such as electromagnetism. The experiment will measure gravitational effects between two minuscule diamond crystals, with results potentially reshaping our understanding of gravity.

A New Approach to Test Gravity’s Quantum Properties

This novel experiment, outlined in Physical Review Letters, will utilise tiny diamond crystals as tools to detect potential quantum disturbances. By placing one crystal as a detector and another as the gravitational source, the researchers intend to observe whether the act of measuring gravity induces a disturbance in the system. In classical physics, observations don’t influence the system under study, but quantum mechanics suggests otherwise. According to Professor Bose, “Once experimental errors are eliminated, any disturbance observed would signify gravity’s adherence to quantum principles.”

A Solution to a Persistent Mystery in Physics

Physicists have long sought to reconcile gravity with quantum mechanics, the established framework for understanding the other three fundamental forces: electromagnetism, the weak nuclear force, and the strong nuclear force. The quantum behaviour of these forces is well-documented, but gravity has consistently eluded similar classification. Despite attempts by large research groups, including experiments with neutrinos in Antarctica, no conclusive evidence of quantum gravitational effects has yet been found.

A Long-Term Vision for Testing Quantum Gravity

The proposed table-top setup offers an efficient and compact way to test for quantum gravity, but the experiment hinges on advanced technology that can manipulate and measure the gravitational pull of extremely lightweight nanodiamonds. Dr Das noted that it may take a decade or more to perfect the technique, adding that “a table-top experiment is far more practical than alternatives, such as constructing a particle accelerator on a cosmic scale.”

The Path to Unified Physics

Team members like Dr Dipankar Home from the Bose Institute in Kolkata see the experiment as an opportunity to test quantum mechanics’ predictions uniquely for gravity. While theories like string theory attempt to bridge the gap between quantum mechanics and gravity, no direct experimental evidence exists.

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.


iQOO 12 Android 15-Based FuntouchOS 15 Update Reportedly Rolling Out for Global Users



Samsung Galaxy S25+ Spotted on Geekbench With Exynos 2500 SoC, Android 15

Continue Reading

Science

India plans to launch Chandrayaan-4 in 2028 to collect moon samples!

Published

on

By

India plans to launch Chandrayaan-4 in 2028 to collect moon samples!

India is setting its sights on the moon once more as it is aiming to launch the ambitious Chandrayaan-4 mission in 2028. This upcoming mission, led by the Indian Space Research Organisation (ISRO), seeks to return samples from the moon’s south pole. The mission plans to retrieve 3 kilograms of lunar material from areas believed to hold water ice, with the goal of bringing these samples safely back to Earth. During a recent address in New Delhi, ISRO’s Chairman S. Somanath detailed this plan, highlighting its importance within India’s expanding space programme. The programme recently received increased government backing of Rs. 21 billion (around $250 million).

Two-Launch Strategy to Capture and Return Lunar Samples

The Chandrayaan-4 mission will involve a complex multi-stage approach to ensure the successful collection and return of lunar samples. The mission will require two separate launches aboard ISRO’s LVM-3 rockets. The first launch will carry a lunar lander and an ascender vehicle that will gather samples. The second launch will deploy a transfer module and a reentry vehicle that will remain in lunar orbit. After the samples are collected, the ascender will transfer them to the reentry module in lunar orbit, which will then return to Earth.

To prepare for the mission’s in-orbit docking requirements, ISRO will conduct a docking experiment, SPADEX, worth $14 million, to test this technique in a real-world environment. This experiment, set for late 2024 or early 2025, aims to refine skills critical for the mission’s success.

Expanding Partnerships and Future Lunar Ambitions

India’s collaboration with Japan will also play a key role in its lunar exploration plans. Following Chandrayaan-4, ISRO and the Japan Aerospace Exploration Agency (JAXA) will work together on Chandrayaan-5, also known as the Lunar Polar Exploration Project (LUPEX). JAXA will contribute a 350-kilogram rover for this mission, a significant step up from the Pragyan rover used on Chandrayaan-3.

The Chandrayaan series of missions represents India’s drive to establish a human presence on the moon by 2040 and explore long-term options for a lunar base by 2050. Somanath and ISRO remain committed to reaching these ambitious milestones, seeing them as essential steps towards India’s vision of space leadership. India plans to launch Chandrayaan-4 in 2028 to collect moon samples!

Continue Reading

Trending