ChiefsPlanet Mobile
Page 203 of 219
« First < 103153193199200201202203 204205206207213 > Last »
Nzoner's Game Room>Science is Cool....
Fish 09:43 PM 05-21-2012
This is a repository for all cool scientific discussion and fascination. Scientific facts, theories, and overall cool scientific stuff that you'd like to share with others. Stuff that makes you smile and wonder at the amazing shit going on around us, that most people don't notice.

Post pictures, vidoes, stories, or links. Ask questions. Share science.

Why should I care?:


[Reply]
DaFace 10:43 PM 01-10-2020
When you really look into it in detail, it's tragic that basically no new progress has been made in nuclear power because people are scared of it.
[Reply]
Fish 10:45 PM 01-10-2020
Interactive map showing Australia's climate change over the past 110 years:

http://www.bom.gov.au/climate/history/temperature/
[Reply]
Fish 10:50 PM 01-16-2020

[Reply]
GloryDayz 06:52 AM 01-17-2020
:-)
[Reply]
MatriculatingHank 11:50 AM 01-30-2020

[Reply]
Otter 10:47 PM 02-15-2020
I thought this was neat if nothing else for the witty little note with each substance.


[Reply]
njchiefs 02-16-2020, 08:55 AM
This message has been deleted by njchiefs.
F150 09:09 AM 02-17-2020



So there is that......
[Reply]
Fish 11:36 PM 02-21-2020
Science or SciFi plot?

Artificial intelligence yields new antibiotic
A deep-learning model identifies a powerful new drug that can kill many species of antibiotic-resistant bacteria.

Using a machine-learning algorithm, MIT researchers have identified a powerful new antibiotic compound. In laboratory tests, the drug killed many of the world’s most problematic disease-causing bacteria, including some strains that are resistant to all known antibiotics. It also cleared infections in two different mouse models.

The computer model, which can screen more than a hundred million chemical compounds in a matter of days, is designed to pick out potential antibiotics that kill bacteria using different mechanisms than those of existing drugs.

“We wanted to develop a platform that would allow us to harness the power of artificial intelligence to usher in a new age of antibiotic drug discovery,” says James Collins, the Termeer Professor of Medical Engineering and Science in MIT’s Institute for Medical Engineering and Science (IMES) and Department of Biological Engineering. “Our approach revealed this amazing molecule which is arguably one of the more powerful antibiotics that has been discovered.”

In their new study, the researchers also identified several other promising antibiotic candidates, which they plan to test further. They believe the model could also be used to design new drugs, based on what it has learned about chemical structures that enable drugs to kill bacteria.

“The machine learning model can explore, in silico, large chemical spaces that can be prohibitively expensive for traditional experimental approaches,” says Regina Barzilay, the Delta Electronics Professor of Electrical Engineering and Computer Science in MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL).

Barzilay and Collins, who are faculty co-leads for MIT’s Abdul Latif Jameel Clinic for Machine Learning in Health (J-Clinic), are the senior authors of the study, which appears today in Cell. The first author of the paper is Jonathan Stokes, a postdoc at MIT and the Broad Institute of MIT and Harvard.

[...]
[Reply]
Fish 11:43 PM 02-21-2020
KIST researchers develop high-capacity EV battery materials that double driving range

Dr. Hun-Gi Jung and his research team at the Center for Energy Storage Research of the Korea Institute of Science and Technology (KIST, President Lee Byung Gwon) have announced the development of silicon anode materials that can increase battery capacity four-fold in comparison to graphite anode materials and enable rapid charging to more than 80% capacity in only five minutes. When applied to batteries for electric vehicles, the new materials are expected to more than double their driving range.

The batteries currently installed in mass-produced electric vehicles use graphite anode materials, but their low capacity contributes to electric vehicles' having a shorter driving range than vehicles with internal combustion engines. Consequently, silicon, with an energy storage capacity 10-times greater than graphite, has drawn attention as a next-generation anode material for the development of long-range electric vehicles. However, silicon materials have not yet been commercialized because their volume expands rapidly and storage capacity decreases significantly during charge and discharge cycles, which limits commercialization. A number of methods have been suggested for enhancing the stability of silicon as an anode material, but the cost and complexity of these methods have prevented silicon from replacing graphite.

To enhance the stability of silicon, Dr. Jung and his team focused on using materials that are common in our everyday lives, such as water, oil, and starch. They dissolved starch and silicon in water and oil, respectively, and then mixed and heated them in order to produce carbon-silicon composites. A simple thermal process used for frying food was employed to firmly fix the carbon and silicon, preventing the silicon anode materials from expanding during charge and discharge cycles.

The composite materials developed by the research team demonstrated a capacity four-times greater than that of graphite anode materials (360mAh/g ? 1,530mAh/g) and stable capacity retention over 500 cycles. It was also found that the materials enable batteries to charge to more than 80% capacity in only five minutes. Carbon spheres prevent the usual volume expansion of silicon, thereby enhancing the stability of silicon materials. Also, the use of highly conductive carbon and the rearrangement of the silicon structure resulted in a high output.
[Reply]
stumppy 10:24 AM 02-22-2020
Originally Posted by Fish:
KIST researchers develop high-capacity EV battery materials that double driving range

Dr. Hun-Gi Jung and his research team at the Center for Energy Storage Research of the Korea Institute of Science and Technology (KIST, President Lee Byung Gwon) have announced the development of silicon anode materials that can increase battery capacity four-fold in comparison to graphite anode materials and enable rapid charging to more than 80% capacity in only five minutes. When applied to batteries for electric vehicles, the new materials are expected to more than double their driving range.

The batteries currently installed in mass-produced electric vehicles use graphite anode materials, but their low capacity contributes to electric vehicles' having a shorter driving range than vehicles with internal combustion engines. Consequently, silicon, with an energy storage capacity 10-times greater than graphite, has drawn attention as a next-generation anode material for the development of long-range electric vehicles. However, silicon materials have not yet been commercialized because their volume expands rapidly and storage capacity decreases significantly during charge and discharge cycles, which limits commercialization. A number of methods have been suggested for enhancing the stability of silicon as an anode material, but the cost and complexity of these methods have prevented silicon from replacing graphite.

To enhance the stability of silicon, Dr. Jung and his team focused on using materials that are common in our everyday lives, such as water, oil, and starch. They dissolved starch and silicon in water and oil, respectively, and then mixed and heated them in order to produce carbon-silicon composites. A simple thermal process used for frying food was employed to firmly fix the carbon and silicon, preventing the silicon anode materials from expanding during charge and discharge cycles.

The composite materials developed by the research team demonstrated a capacity four-times greater than that of graphite anode materials (360mAh/g ? 1,530mAh/g) and stable capacity retention over 500 cycles. It was also found that the materials enable batteries to charge to more than 80% capacity in only five minutes. Carbon spheres prevent the usual volume expansion of silicon, thereby enhancing the stability of silicon materials. Also, the use of highly conductive carbon and the rearrangement of the silicon structure resulted in a high output.

Wow, that's a helluva difference.
[Reply]
chefsos 03:09 PM 02-22-2020
Even with my decidedly non-scientific mind, I've thought for years now that battery technology (need 'em smaller, lighter, more powerful, less expensive) has been the anchor that's holding back a lot of tech advancement. This is something that's long overdue.
[Reply]
GloryDayz 04:16 PM 02-22-2020
Originally Posted by Fish:
KIST researchers develop high-capacity EV battery materials that double driving range

Dr. Hun-Gi Jung and his research team at the Center for Energy Storage Research of the Korea Institute of Science and Technology (KIST, President Lee Byung Gwon) have announced the development of silicon anode materials that can increase battery capacity four-fold in comparison to graphite anode materials and enable rapid charging to more than 80% capacity in only five minutes. When applied to batteries for electric vehicles, the new materials are expected to more than double their driving range.

The batteries currently installed in mass-produced electric vehicles use graphite anode materials, but their low capacity contributes to electric vehicles' having a shorter driving range than vehicles with internal combustion engines. Consequently, silicon, with an energy storage capacity 10-times greater than graphite, has drawn attention as a next-generation anode material for the development of long-range electric vehicles. However, silicon materials have not yet been commercialized because their volume expands rapidly and storage capacity decreases significantly during charge and discharge cycles, which limits commercialization. A number of methods have been suggested for enhancing the stability of silicon as an anode material, but the cost and complexity of these methods have prevented silicon from replacing graphite.

To enhance the stability of silicon, Dr. Jung and his team focused on using materials that are common in our everyday lives, such as water, oil, and starch. They dissolved starch and silicon in water and oil, respectively, and then mixed and heated them in order to produce carbon-silicon composites. A simple thermal process used for frying food was employed to firmly fix the carbon and silicon, preventing the silicon anode materials from expanding during charge and discharge cycles.

The composite materials developed by the research team demonstrated a capacity four-times greater than that of graphite anode materials (360mAh/g ? 1,530mAh/g) and stable capacity retention over 500 cycles. It was also found that the materials enable batteries to charge to more than 80% capacity in only five minutes. Carbon spheres prevent the usual volume expansion of silicon, thereby enhancing the stability of silicon materials. Also, the use of highly conductive carbon and the rearrangement of the silicon structure resulted in a high output.
This could change the game for coastal defense submarines...
[Reply]
Fish 07:11 PM 02-25-2020
Potential Coronavirus Vaccine Completed and Shipped For Further Testing

As the coronavirus outbreak continues to spread, an experimental vaccine to combat the disease is on its way to the top health officials.

The biotech company Moderna Inc., located in Cambridge, announced that it has shipped the first batch of vaccination for early-stage testing.

The vaccine vials are sent to the National Institute of Allergy and Infectious Diseases in Bethesda after being manufactured at a facility in Norwood.

The US government researchers will launch the first human tests of whether the experimental shot could help suppress the Wuhan epidemic, originated in China.

Scientists from all around the world are racing to find a vaccine for the coronavirus, and time will show whether the new vaccine prevails or not.

It is expected for the institute to start clinical trials by the end of April. If a successful trial occurs, it will be followed by in-depth studies and regulations. It is probable that the vaccine might not be ready for distribution until at least next year.

Currently, there are 79,773 cases of coronavirus infections, with 40,305 in mild condition, and 11,567 in critical condition. With 2,629 people deceased, and 25,272 recovered, this new vaccine might be the beam of hope for many people globally.
[Reply]
Fish 11:05 PM 03-09-2020
Did you know the US government once had plans to design a spacecraft powered by nuclear reaction?

Humanity may not need a warp drive to go interstellar

[...]

It is not widely known, but the US government spent real money, tested hardware and employed some of the best minds in late 1950s and early 60s to develop an idea called nuclear pulse propulsion.

Known as Project Orion, the work was classified because the principle was that your engine shoots a series of “nuclear pulse units”—atomic bombs of roughly Hiroshima/Nagasaki power—out the back. Each unit explodes and the shockwave delivers concussive force to an immense, steal pusher plate, which is connected to the most immense shock absorber system that you could imagine.


An Orion propulsion schematic. (Credit: NASA)

The researchers calculated the ship to could reach five percent the speed of light (0.05 c), resulting in roughly a 90-year travel time to Alpha Centauri. The Nuclear Test Ban Treaty of 1963, which forbade nuclear explosions in the atmosphere, and the Outer Space Treaty of 1967, which forbade nuclear explosive devices in space, effectively ended Orion.

In his epic TV series Cosmos, Carl Sagan noted such an engine would be an excellent way to dispose of humanity’s nuclear bombs, but that it would have to be activated far from Earth. But back when Orion was being funded, amazingly, the plan was to use the nuclear pulse engine even for launching the vessel, in one massive piece, from the surface of Earth.
:-)Suffice it to say it does not seem likely that we’ll every build a nuclear pulse ship, but it’s something that we already have the technology to build.


[Reply]
Perineum Ripper 07:24 AM 03-10-2020
Seems like setting off an atomic bomb to launch a spaceship, might not be the best of plans. Could be wrong about that.



Could we ask Japan on what they think about it?
[Reply]
Page 203 of 219
« First < 103153193199200201202203 204205206207213 > Last »
Up