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This is the underside of an elephant's foot. The sole of an elephant is full of cracks. Like the fingerprint of people or the stripes of a zebra, those cracks are unique to each elephant. That means, if the tracking conditions are good, that you can identify an individual elephant just by its footprint. The amount of cracks also increases by age, so you can also get an indication of an elephant's age, just from its footprints.
Elephants communicate over long distances with infra sounds, inaudible to the human ear. In the feet of elephants, there are a lot of sensitive nerves that pick up these low frequencies from the ground. So, you could say that elephants can listen with their feet.
Elephants communicate over long distances with infra sounds, inaudible to the human ear. In the feet of elephants, there are a lot of sensitive nerves that pick up these low frequencies from the ground. So, you could say that elephants can listen with their feet.
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Forwarded from Digital art
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Space digital art for @Science
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Secret ingredient found to help ancient Roman concrete self-heal
Concrete is the most commonly used building material in the world, but itβs not impervious to damage. Weather and stress can lead to tiny cracks, which can grow into much larger cracks that eventually threaten the integrity of the entire structure. That can require expensive maintenance or replacement to prevent catastrophic failure.
In contrast, ancient Roman structures have stood the test of time for more than two millennia. To find out how, scientists have long examined samples of the material under microscopes to study the composition and uncover the ingredients that bestow such strength.
Concrete is the most commonly used building material in the world, but itβs not impervious to damage. Weather and stress can lead to tiny cracks, which can grow into much larger cracks that eventually threaten the integrity of the entire structure. That can require expensive maintenance or replacement to prevent catastrophic failure.
In contrast, ancient Roman structures have stood the test of time for more than two millennia. To find out how, scientists have long examined samples of the material under microscopes to study the composition and uncover the ingredients that bestow such strength.
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Shellmet helmet is made of scallop shells β plus it looks like one
Utilizing a process developed by Prof. Hiroshi Uyama from Osaka University, the shells are first boiled and sterilized, then pulverized and rendered into calcium carbonate powder, which is mixed with powdered discarded plastic and rendered into pellets. Those "Shellstic" bioplastic pellets are subsequently poured into a helmet mold and heated, causing them to melt.
Once the bioplastic has cooled and hardened, the result is a helmet with a scallop-shell-inspired ribbed design. That design, along with the inclusion of the calcium carbonate, is claimed to make the helmet about 33% stronger than it would be otherwise. Additionally, the production process is said to generate approximately 36% fewer greenhouse gas emissions than if 100% virgin plastic were used.
Utilizing a process developed by Prof. Hiroshi Uyama from Osaka University, the shells are first boiled and sterilized, then pulverized and rendered into calcium carbonate powder, which is mixed with powdered discarded plastic and rendered into pellets. Those "Shellstic" bioplastic pellets are subsequently poured into a helmet mold and heated, causing them to melt.
Once the bioplastic has cooled and hardened, the result is a helmet with a scallop-shell-inspired ribbed design. That design, along with the inclusion of the calcium carbonate, is claimed to make the helmet about 33% stronger than it would be otherwise. Additionally, the production process is said to generate approximately 36% fewer greenhouse gas emissions than if 100% virgin plastic were used.
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Planetary Defense & Science Will Advance With New Radar on Green Bank Telescope
With a transmitter less powerful than a microwave oven, a team of scientists and engineers used the National Science Foundationβs Green Bank Telescope (GBT) and Very Long Baseline Array (VLBA) to make the highest-resolution radar images of the Moon ever collected from the ground, paving the way for a next-generation radar system to study planets, moons, and asteroids in the Solar System.
With a transmitter less powerful than a microwave oven, a team of scientists and engineers used the National Science Foundationβs Green Bank Telescope (GBT) and Very Long Baseline Array (VLBA) to make the highest-resolution radar images of the Moon ever collected from the ground, paving the way for a next-generation radar system to study planets, moons, and asteroids in the Solar System.
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Magnetic solution removes toxic "forever chemicals" from water in seconds
Scientists in Australia have developed an intriguing new technique for removing toxic βforever chemicalsβ from water. Adding a solution to contaminated water coats the pollutants and makes them magnetic, so they can easily be attracted and isolated.
In tests with small samples of PFAS-laden water, the team found that the technique could remove over 95% of most PFAS molecules, including over 99% of GenX β a particularly problematic chemical β within 30 seconds.
Scientists in Australia have developed an intriguing new technique for removing toxic βforever chemicalsβ from water. Adding a solution to contaminated water coats the pollutants and makes them magnetic, so they can easily be attracted and isolated.
In tests with small samples of PFAS-laden water, the team found that the technique could remove over 95% of most PFAS molecules, including over 99% of GenX β a particularly problematic chemical β within 30 seconds.
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A small survey.
Imagine you hire a killer, pay him money and give him weapons to kill.
Are you an accomplice in a crime and should you be punished?
Imagine you hire a killer, pay him money and give him weapons to kill.
Are you an accomplice in a crime and should you be punished?
Anonymous Poll
89%
Yes, thatβs a crime
6%
No, thatβs different
5%
Itβs not a crime, everyone in civilized world can do that
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Bottlebrush-shaped molecules carry drug combos to combat cancer
Existing cancer drugs can be effective against the disease, but unfortunately they donβt always go exactly where theyβre needed in the right amounts, leading to a range of toxic side effects. Groups of drugs can multiply the cancer-fighting potential β but itβs even harder to corral them to the target.
Scientists at MIT have developed bottlebrush-shaped molecules that can carry groups of different cancer drugs in just the right ratio. Tests in mice showed significantly improved outcomes compared to just giving the drugs loose.
Existing cancer drugs can be effective against the disease, but unfortunately they donβt always go exactly where theyβre needed in the right amounts, leading to a range of toxic side effects. Groups of drugs can multiply the cancer-fighting potential β but itβs even harder to corral them to the target.
Scientists at MIT have developed bottlebrush-shaped molecules that can carry groups of different cancer drugs in just the right ratio. Tests in mice showed significantly improved outcomes compared to just giving the drugs loose.
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Researchers have created a new class of robots that can shift between solid and liquid forms on demand. In a series of tests, these new bots could move and change shape to run obstacle courses, carry objects, or even escape from a jail cell like a Terminator.
Robots usually come in two flavors β there are the traditional ones that are hard and strong, but not particularly flexible. And then there are soft robots, which are more flexible but not as strong. For the new study, researchers at Carnegie Mellon University and the Chinese University of Hong Kong developed a new type of robot that combines the best of both worlds.
https://youtu.be/dPg_o-g-H2s
Robots usually come in two flavors β there are the traditional ones that are hard and strong, but not particularly flexible. And then there are soft robots, which are more flexible but not as strong. For the new study, researchers at Carnegie Mellon University and the Chinese University of Hong Kong developed a new type of robot that combines the best of both worlds.
https://youtu.be/dPg_o-g-H2s
YouTube
Phase-changing metal robot
A new type of robot can change between solid and liquid forms on demand, to achieve a range of different goals
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Billion-dollar startup Colossal Biosciences claims it has come a step closer to reviving the dodo, a flightless bird that has been extinct since the 17th century.
The futuristic plan is only possible now that the Dallas-based company has decrypted the dodo's entire genome, according to a press release.
The bird is the latest in the collection of long-gone animals that scientists want to bring back to life. The startup has previously said it plans to recreate the Tasmanian wolf and the woolly mammoth.
There's still a lot to be done before these birds can be brought back. Scientists can't recreate life from scratch, so they will have to figure out a way to put the dodo-specific genes into the embryo of a living animal.
The futuristic plan is only possible now that the Dallas-based company has decrypted the dodo's entire genome, according to a press release.
The bird is the latest in the collection of long-gone animals that scientists want to bring back to life. The startup has previously said it plans to recreate the Tasmanian wolf and the woolly mammoth.
There's still a lot to be done before these birds can be brought back. Scientists can't recreate life from scratch, so they will have to figure out a way to put the dodo-specific genes into the embryo of a living animal.
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The Google dudes can if they want to.
A new thing called Video Editing Tool .
It works as follows - you have a set of static pictures, you arrange them in a given order and prescribe the actions that should occur "between the images", and the newfangled artificial intelligence remakes it all into a video.
Animation on a new level
A new thing called Video Editing Tool .
It works as follows - you have a set of static pictures, you arrange them in a given order and prescribe the actions that should occur "between the images", and the newfangled artificial intelligence remakes it all into a video.
Animation on a new level
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Forwarded from Gadget and device News ποΈ
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The most ambitious neural network is being developed by a team of former Google employees - AdeptAI promises to surprise everyone.
As planned, AI will be able to perform any task in the browser using text commands - you can ask to find a refrigerator for a specific budget, fill out a Google Spreadsheet, or order products for making hodgepodge (or other dish).
So far, in a beta test, you can sign up here , in the near future they promise to roll it out to the general public.
@gadget
As planned, AI will be able to perform any task in the browser using text commands - you can ask to find a refrigerator for a specific budget, fill out a Google Spreadsheet, or order products for making hodgepodge (or other dish).
So far, in a beta test, you can sign up here , in the near future they promise to roll it out to the general public.
@gadget
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How immortal jellyfish turn back time
Achieving immortality is something that has driven human beings throughout much of their history. Many peculiar legends and fables have been told about the search for the elixirs of life. Medieval alchemists worked tirelessly to find the formula for the philosopherβs stone, which granted rejuvenating powers. Another well-known story is the travels of Juan Ponce de LeΓ³n, who, while conquering the New World, searched for the mysterious fountain of youth.
But to this day no one has succeeded in discovering the keys to eternal life. There is, however, one exception β a creature no more than four millimetres in size Turritopsis dohrnii, also known as βthe immortal jellyfishβ.
Achieving immortality is something that has driven human beings throughout much of their history. Many peculiar legends and fables have been told about the search for the elixirs of life. Medieval alchemists worked tirelessly to find the formula for the philosopherβs stone, which granted rejuvenating powers. Another well-known story is the travels of Juan Ponce de LeΓ³n, who, while conquering the New World, searched for the mysterious fountain of youth.
But to this day no one has succeeded in discovering the keys to eternal life. There is, however, one exception β a creature no more than four millimetres in size Turritopsis dohrnii, also known as βthe immortal jellyfishβ.
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A Strange New Form of Ice Discovered by Scientists Could Revolutionize How We Think About Water
A previously unidentified type of ice that is more similar to liquid water than any other ice yet has been discovered by scientists by shaking regular frozen water around in a jar of extremely cold steel balls.
This is amorphous ice, which does not exist in the environment on Earth. This is due to the fact that its atoms are not ordered in a tidy repeating crystalline structure, but rather are jumbled up into an atomic omnishambles.
But the amorphous ice that the team has been creating through tests with ball milling is unlike any amorphous ice that has ever been observed.
Typically, amorphous ice has a density between 0.94 grams per cubic centimeter and 1.13 grams per cubic centimeter. The new ice is quite close to water, which has a density of 1 gram per cubic centimeter, at 1.06 grams per cubic centimeter.
A previously unidentified type of ice that is more similar to liquid water than any other ice yet has been discovered by scientists by shaking regular frozen water around in a jar of extremely cold steel balls.
This is amorphous ice, which does not exist in the environment on Earth. This is due to the fact that its atoms are not ordered in a tidy repeating crystalline structure, but rather are jumbled up into an atomic omnishambles.
But the amorphous ice that the team has been creating through tests with ball milling is unlike any amorphous ice that has ever been observed.
Typically, amorphous ice has a density between 0.94 grams per cubic centimeter and 1.13 grams per cubic centimeter. The new ice is quite close to water, which has a density of 1 gram per cubic centimeter, at 1.06 grams per cubic centimeter.
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Dear subscribers of Science.t.me,
We hope you're enjoying the latest and greatest in the world of science! If you're passionate about science and love staying up-to-date on the latest breakthroughs and advancements, then you've come to the right place.
But why keep all the fun to yourself? We believe that everyone should have access to the wealth of knowledge and resources that Science.t.me has to offer. That's why we're asking you to help us grow this amazing community by suggesting Science.t.me to your friends.
By sharing Science.t.me with your friends, you'll be giving them the opportunity to join a dynamic and engaging community of science lovers and experts. Whether they're students, researchers, or simply passionate about science, Science.t.me is the perfect platform for anyone who wants to stay ahead of the curve and learn something new every day.
So why wait? Help us spread the love of science and suggest Science.t.me to your friends today! Let's keep exploring the wonders of our world together.
Best regards,
The Science.t.me team
We hope you're enjoying the latest and greatest in the world of science! If you're passionate about science and love staying up-to-date on the latest breakthroughs and advancements, then you've come to the right place.
But why keep all the fun to yourself? We believe that everyone should have access to the wealth of knowledge and resources that Science.t.me has to offer. That's why we're asking you to help us grow this amazing community by suggesting Science.t.me to your friends.
By sharing Science.t.me with your friends, you'll be giving them the opportunity to join a dynamic and engaging community of science lovers and experts. Whether they're students, researchers, or simply passionate about science, Science.t.me is the perfect platform for anyone who wants to stay ahead of the curve and learn something new every day.
So why wait? Help us spread the love of science and suggest Science.t.me to your friends today! Let's keep exploring the wonders of our world together.
Best regards,
The Science.t.me team
π65π₯25β‘8π3π€―3π2
Exciting news from the world of space exploration! A recent study published in the Astronomical Journal has discovered a potentially habitable exoplanet orbiting a red dwarf star.
According to the article on NewAtlas.com, the exoplanet, named GJ3512 b, is located in the habitable zone of its star, meaning that it could potentially have liquid water on its surface. This makes it a prime target for further study and a potential candidate for the search for extraterrestrial life.
This discovery highlights the ongoing efforts to find habitable exoplanets and the significance of red dwarf stars in the search for life beyond our solar system. With advancements in technology and new techniques for observing exoplanets, the future of space exploration looks brighter than ever.
Stay tuned to Science.t.me for more updates on this and other exciting developments in the world of science and space exploration."
According to the article on NewAtlas.com, the exoplanet, named GJ3512 b, is located in the habitable zone of its star, meaning that it could potentially have liquid water on its surface. This makes it a prime target for further study and a potential candidate for the search for extraterrestrial life.
This discovery highlights the ongoing efforts to find habitable exoplanets and the significance of red dwarf stars in the search for life beyond our solar system. With advancements in technology and new techniques for observing exoplanets, the future of space exploration looks brighter than ever.
Stay tuned to Science.t.me for more updates on this and other exciting developments in the world of science and space exploration."
New Atlas
Newly discovered Earth-sized planet might be right for life
Searching the galaxy for planets like Earth is a slow-going needle-in-a-haystack proposition. In fact, out of over 5,000 other planets discovered by astronomers to date, only about 12 even come close. That number has been increased by one however, thanksβ¦
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Exciting news for those suffering from arthritis! A recent study has found that a drug used to treat arthritis in mice was also able to reverse the effects of aging. The drug, which targets a protein involved in inflammation, showed a significant improvement in physical function and reduction in the signs of aging in the mice treated with it. This study is a promising step forward in the search for a cure for both arthritis and aging. We look forward to further research and development in this field.
Stay tuned to Science.t.me for more updates on this and other exciting developments in the world of science and space exploration
Stay tuned to Science.t.me for more updates on this and other exciting developments in the world of science and space exploration
New Atlas
Arthritis drug mimics "young blood" transfusions to reverse aging in mice
In what sounds like dystopian sci-fi, researchers have recently shown that infusions of youthful blood can improve the health of older people. A new study has found that an existing arthritis drug can effectively rejuvenate blood stem cells, mimicking theβ¦
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