Month: September 2024
Experiment reveals limited ability to spot deepfakes, even with prior warnings | An experiment conducted in the UK has shown that people generally struggle to distinguish deepfake videos from authentic ones.
submitted by /u/a_Ninja_b0y [link] [comments]
submitted by /u/a_Ninja_b0y
[link] [comments]
La Liga Soccer Livestream: How to Watch Osasuna vs. Barcelona From Anywhere
La Blaugrana take on seventh place Los Rojillos at the Estadio El Sadar.
La Blaugrana take on seventh place Los Rojillos at the Estadio El Sadar.
Cocoa Press 3D Chocolate Printer Gets Sweet Upgrades, Lower Price
Custom chocolates are within reach for home hobbyists with the Cocoa Press 3D printer. The new 2.0 version delivers faster prints and hardware upgrades.
Custom chocolates are within reach for home hobbyists with the Cocoa Press 3D printer. The new 2.0 version delivers faster prints and hardware upgrades.
Meet LISA: The $1.6 Billion Space Telescope That Will Redefine Astronomy
submitted by /u/a_Ninja_b0y [link] [comments]
submitted by /u/a_Ninja_b0y
[link] [comments]
A Cheap, Low-Tech Solution For Storing Carbon? Researchers Suggest Burying Wood
Researchers propose a “deceptively simple” way to sequester carbon, reports the Washington Post: burying wood underground:
Forests are Earth’s lungs, sucking up six times more carbon dioxide (CO2) than the amount people pump into the atmosphere every year by burning coal and other fossil fuels. But much of that carbon quickly makes its way back into the air once insects, fungi and bacteria chew through leaves and other plant material. Even wood, the hardiest part of a tree, will succumb within a few decades to these decomposers. What if that decay could be delayed? Under the right conditions, tons of wood could be buried underground in wood vaults, locking in a portion of human-generated CO2 for potentially thousands of years.
While other carbon-capture technologies rely on expensive and energy-intensive machines to extract CO2, the tools for putting wood underground are simple: a tractor and a backhoe.
Finding the right conditions to impede decomposition over millennia is the tough part. To test the idea, [Ning Zeng, a University of Maryland climate scientist] worked with colleagues in Quebec to entomb wood under clay soil on a crop field about 30 miles east of Montreal… But when the scientists went digging in 2013, they uncovered something unexpected: A piece of wood already buried about 6½ feet underground. The craggy, waterlogged piece of eastern red cedar appeared remarkably well preserved. “I remember standing there looking at other people, thinking, ‘Do we really need to continue this experiment?'” Zeng recalled. “Because here’s the evidence….”
Radiocarbon dating revealed the log to be 3,775 years old, give or take a few decades. Comparing the old chunk of wood to a freshly cut piece of cedar showed the ancient log lost less than 5 percent of its carbon over the millennia. The log was surrounded by stagnant, oxygen-deprived groundwater and covered by an impermeable layer of clay, preventing fungi and insects from consuming the wood. Lignin, a tough material that gives trees their strength, protected the wood’s carbohydrates from subterranean bacteria…
The researchers estimate buried wood can sequester up 10 billion tons of CO2 per year, which is more than a quarter of annual global emissions from energy, according to the International Energy Agency.
Read more of this story at Slashdot.
Researchers propose a “deceptively simple” way to sequester carbon, reports the Washington Post: burying wood underground:
Forests are Earth’s lungs, sucking up six times more carbon dioxide (CO2) than the amount people pump into the atmosphere every year by burning coal and other fossil fuels. But much of that carbon quickly makes its way back into the air once insects, fungi and bacteria chew through leaves and other plant material. Even wood, the hardiest part of a tree, will succumb within a few decades to these decomposers. What if that decay could be delayed? Under the right conditions, tons of wood could be buried underground in wood vaults, locking in a portion of human-generated CO2 for potentially thousands of years.
While other carbon-capture technologies rely on expensive and energy-intensive machines to extract CO2, the tools for putting wood underground are simple: a tractor and a backhoe.
Finding the right conditions to impede decomposition over millennia is the tough part. To test the idea, [Ning Zeng, a University of Maryland climate scientist] worked with colleagues in Quebec to entomb wood under clay soil on a crop field about 30 miles east of Montreal… But when the scientists went digging in 2013, they uncovered something unexpected: A piece of wood already buried about 6½ feet underground. The craggy, waterlogged piece of eastern red cedar appeared remarkably well preserved. “I remember standing there looking at other people, thinking, ‘Do we really need to continue this experiment?'” Zeng recalled. “Because here’s the evidence….”
Radiocarbon dating revealed the log to be 3,775 years old, give or take a few decades. Comparing the old chunk of wood to a freshly cut piece of cedar showed the ancient log lost less than 5 percent of its carbon over the millennia. The log was surrounded by stagnant, oxygen-deprived groundwater and covered by an impermeable layer of clay, preventing fungi and insects from consuming the wood. Lignin, a tough material that gives trees their strength, protected the wood’s carbohydrates from subterranean bacteria…
The researchers estimate buried wood can sequester up 10 billion tons of CO2 per year, which is more than a quarter of annual global emissions from energy, according to the International Energy Agency.
Read more of this story at Slashdot.
The Samsung Galaxy S25 Ultra is again tipped to get a key spec upgrade
It looks as though the Ultra model is going to go back to having 16GB of RAM fitted inside.
It looks as though the Samsung Galaxy S25 Ultra is going to come with a serious set of specs when the Samsung Galaxy S25 series gets unveiled (probably next January) – including a bump up to 16GB of RAM.
This comes from well-known tipster Ice Universe, who says it’s now “100% confirmed” that the Ultra model in the range is going to come with 16GB of RAM inside. That’s up from 12GB of RAM in the Samsung Galaxy S24 Ultra.
We’ve actually heard about this bump in RAM before, back in July, and from the same source. That the claim is now being reiterated and labeled as “confirmed” gives us more confidence that we will indeed see the upgrade.
As reported by SamMobile, we’ve also heard that the quality of the RAM modules will be getting improved as the overall amount of memory – and that should mean upgrades in terms of performance and efficiency (which means better battery life).
Back to 16GB
The S25 Ultra will definitely have a 16GB RAM version, this is 100% confirmed, don’t worry.September 27, 2024
This wouldn’t actually be the first time the Ultra model in a Galaxy S series has had 16GB of RAM. The same level of memory was available in the Galaxy S20 Ultra and the Galaxy S21 Ultra (from 2020 and 2021 respectively), before the drop to 12GB.
It looks as though both the Galaxy S25 and the Galaxy S25 Plus are going to get 12GB of RAM – compared to the current versions, that would be an increase of 4GB for the standard model, and the same level for the Plus model.
All this extra RAM means more thinking room for on-board AI features, of course. We can expect to see plenty of them introduced with the Galaxy S25 series. The phones should show up in January 2025, if Samsung sticks to the same schedule as this year.
Let’s hope the increase in RAM year-on-year doesn’t affect the asking price for the phone. As our Samsung Galaxy S24 Ultra review will tell you, the 2024 flagship handset went on sale for $1,299.99 / £1,249 / AU$2,199.
You might also like
The Galaxy S25 Ultra could beat the iPhone on bezelsExpect Galaxy S25 Ultra performance increasesThe Galaxy S25 might keep the Galaxy S24 cameras
Would you live in a house of glass? Researchers have 3D-printed glass bricks that mimic the popular Lego interlocking system and can be recycled infinitely
MIT researchers have developed reusable 3D printed glass bricks that lock together like Lego
MIT engineers are aiming to make construction more sustainable by developing reusable bricks made from 3D-printed recycled glass.
The approach follows the principles of “circular construction”, which focuses on reusing and repurposing building materials rather than creating new ones, with an aim to lower the construction industry’s embodied carbon – the greenhouse gas emissions linked to every stage of a building’s lifecycle.
Using a special 3D glass printing technology from MIT spin-off Evenline, the team has created strong, layered glass bricks shaped like figure eights. These bricks lock together like Lego pieces, making it easy to build and take apart structures. The design allows the bricks to be used again and again for walls and other parts of buildings without the need for new materials.
Breaking people’s brains a little bit
The glass bricks are made from soda-lime glass, a type often used in glassblowing studios. Each brick has two round pegs that enable them to lock together without glue. There is also a protective layer between the bricks to stop scratches and cracks, but this layer can be removed so the bricks can be recycled, melted and printed into new shapes.
Tests by MIT showed that one glass brick can handle pressure similar to that of regular concrete blocks. In a real-world test, researchers built a wall with these interlocking glass bricks, showing that 3D-printed glass masonry can be used many times in construction projects.
Kaitlyn Becker, an assistant professor of mechanical engineering at MIT, said, “We’re taking glass and turning it into masonry that, at the end of a structure’s life, can be disassembled and reassembled into a new structure, or can be stuck back into the printer and turned into a completely different shape.” Michael Stern, founder and director of Evenline, added, “Glass as a structural material kind of breaks people’s brains a little bit. We’re showing this is an opportunity to push the limits of what’s been done in architecture.”
The research team published their findings in the journal Glass Structures & Engineering, detailing the design and testing of the glass bricks. Moving forward, they aim to build larger, self-supporting glass structures to further demonstrate the viability of this sustainable building material. “We have more understanding of what the material’s limits are, and how to scale,” Stern says. “We’re thinking of stepping stones to buildings, and want to start with something like a pavilion – a temporary structure that humans can interact with, and that you could then reconfigure into a second design.”
More from TechRadar Pro
How AI leaders are reducing their ecological impact The past, present and future of sustainable digital infrastructureLiquid metal RAM is first step towards shapeless computing
SpaceX set to launch mission to bring Starliner astronauts back to Earth
SpaceX is bringing back propulsive landings with its Dragon capsule, but only in emergencies.
Enlarge / SpaceX’s Crew Dragon spacecraft is ready for launch atop a Falcon 9 rocket from Space Launch Complex-40 at Cape Canaveral Space Force Station, Florida. (credit: SpaceX)
NASA astronaut Nick Hague and Russian cosmonaut Aleksandr Gorbunov are ready for launch Saturday from Florida’s Space Coast aboard a SpaceX Dragon spacecraft, heading for a five-month expedition on the International Space Station.
The two-man crew is set for liftoff on top of SpaceX’s Falcon 9 rocket at 1:17 pm EDT (17:17 UTC). The weather forecast is a little iffy, with a 55 percent chance of favorable conditions for liftoff from Cape Canaveral Space Force Station. You can watch the launch on NASA’s YouTube livestream, embedded here.