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DNA_1
Based on the initial DNA analysis, we can say that this is a universal molecular platform for all living things with a high degree of compatibility, often a difference of less than 1%.
This also explains some of the benefits of natural products; we can note a certain interchangeability at the molecular level, technically speaking.
So, for example, if we assume that if amino acids were isolated from more intellectually developed creatures or aliens and offered to humans, then this would definitely affect human development.
DNA has a fairly short life cycle.
This explains her point position, the nature of the mutually beneficial coexistence of various genes written in one chain focused on current immediate tasks and not on sorting through the category of a struggle for the future or unsuccessful experiences from the past. Although nothing cancels the confidence that the last processes in the DNA chain are reflected in some other way beyond that point position for the sake of sustainability of cell life. Perhaps through the same superpositions. Perhaps the answer to this would be given by the principles of complementarity inherent in biomolecules. It is possible, including through the diversification of calculations on different biomolecules. Moreover, most likely here we can talk about smart superpositions, about some superposition field, if we still take into account the nature of biomolecules.
It is possible to develop technologies such as single-atom coating as in a quantum computer, which would become possible thanks to technologies based on knowledge of DNA. Such a quantum computer technology would involve the creation of technical cells existing in special laboratory or incubation conditions whose logic of life would go beyond the scope of natural life.
#binance #investment #science #dna #quantumcomputer
Photo: BIXEL
Based on the initial DNA analysis, we can say that this is a universal molecular platform for all living things with a high degree of compatibility, often a difference of less than 1%.
This also explains some of the benefits of natural products; we can note a certain interchangeability at the molecular level, technically speaking.
So, for example, if we assume that if amino acids were isolated from more intellectually developed creatures or aliens and offered to humans, then this would definitely affect human development.
DNA has a fairly short life cycle.
This explains her point position, the nature of the mutually beneficial coexistence of various genes written in one chain focused on current immediate tasks and not on sorting through the category of a struggle for the future or unsuccessful experiences from the past. Although nothing cancels the confidence that the last processes in the DNA chain are reflected in some other way beyond that point position for the sake of sustainability of cell life. Perhaps through the same superpositions. Perhaps the answer to this would be given by the principles of complementarity inherent in biomolecules. It is possible, including through the diversification of calculations on different biomolecules. Moreover, most likely here we can talk about smart superpositions, about some superposition field, if we still take into account the nature of biomolecules.
It is possible to develop technologies such as single-atom coating as in a quantum computer, which would become possible thanks to technologies based on knowledge of DNA. Such a quantum computer technology would involve the creation of technical cells existing in special laboratory or incubation conditions whose logic of life would go beyond the scope of natural life.
#binance #investment #science #dna #quantumcomputer
Photo: BIXEL
Can crypto solve the current problems of scientific research? #Decentralized #science #Write2EarnâŹ
Scientific research often has the same problems worldwide:
* Lack of funding: many promising studies are alt because they run out of money. Funding often goes to trending and more famous topics, leaving many interesting but niche fields unfunded. Also, even if funds are allocated to research, you cannot be 100% sure that they will be used for that; this is a problem for charity campaigns too.
* Biased publication choices: usually scientific journals only publish "positive studies", namely studies that found a certain effect and don't publish studies that didn't find it (i.e. if a treatment is effective, it gets published, if the same treatment isn't found to be effective in another study, that article isn't published). This can lead to falsifying data in order to get the article published, as researchers' paychecks often depend on it.
Now, can blockchain fix these?
There are currently some new-born projects in the DeSci (Decentralized Science) space that aim to do that:
* VitaDAO is a decentralized organization that collects projects from every researcher in the world (famous professors or simple students) and distributes funding to the most promising ones. The best feature in my opinion is that projects are still reviewed by a court of experts, but the community has the final word.
* Molecule is a platform that lets you invest in specific research, in particular in the medical field. It's kind of like lending money to researchers and earning interest when they discover something.
* Data Lake collects high-quality medical data from around the world in order to give researchers full access to that. This in particular tries to solve the problem of companies analyzing data for their research that aren't public and therefore falsifiable.
Scientific research often has the same problems worldwide:
* Lack of funding: many promising studies are alt because they run out of money. Funding often goes to trending and more famous topics, leaving many interesting but niche fields unfunded. Also, even if funds are allocated to research, you cannot be 100% sure that they will be used for that; this is a problem for charity campaigns too.
* Biased publication choices: usually scientific journals only publish "positive studies", namely studies that found a certain effect and don't publish studies that didn't find it (i.e. if a treatment is effective, it gets published, if the same treatment isn't found to be effective in another study, that article isn't published). This can lead to falsifying data in order to get the article published, as researchers' paychecks often depend on it.
Now, can blockchain fix these?
There are currently some new-born projects in the DeSci (Decentralized Science) space that aim to do that:
* VitaDAO is a decentralized organization that collects projects from every researcher in the world (famous professors or simple students) and distributes funding to the most promising ones. The best feature in my opinion is that projects are still reviewed by a court of experts, but the community has the final word.
* Molecule is a platform that lets you invest in specific research, in particular in the medical field. It's kind of like lending money to researchers and earning interest when they discover something.
* Data Lake collects high-quality medical data from around the world in order to give researchers full access to that. This in particular tries to solve the problem of companies analyzing data for their research that aren't public and therefore falsifiable.
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Neutrino
This tiny particle moves at the speed of light, has a weak interaction, exists in the field of String Theory and, as a result, can serve as a mirror of a known neutrino source or interfere with it. Each person has their own neutrino background. So, if someone were watching a person from the far side of the Moon, they would be able to do this in real time absolutely unnoticed by the person himself, and from Proxima Centauri or Alpha Centauri they would need a period of time of more than four years for these purposes. If you notice patterns in real time with the far side of the Moon or over a period of more than four years, be sure to report it. We cannot remain silent about this.
Everything on earth has its own unique neutrino background and, as a result, for humans it can serve as medical support; each speck of dust has its own neutrino background, which is important for positioning systems in space for drones, robots, autopilots, and humanoid androids.
As an ordinary person, I am more interested in neutrinos from the point of view of organizing communications and positioning in space as the closest area of ââapplication in human life and potentially as the fastest-growing concept of investing in neutrinos, but I do not argue that there are other more expensive aspects of using neutrinos from an investment point of view. With the use of neutrino-based communication, the usual barriers of known radio and laser types of communication are lost. Mirroring, interference and quantum technologies make this type of communication almost impossible to hack. Agree, shouting into the radio wave of your phone or WI-FI router to the entire known area is, in principle, not the best idea even if there are several encryptions, although many people probably donât even realize this.
#investment #InvestSmart #science #quantumcomputing
This tiny particle moves at the speed of light, has a weak interaction, exists in the field of String Theory and, as a result, can serve as a mirror of a known neutrino source or interfere with it. Each person has their own neutrino background. So, if someone were watching a person from the far side of the Moon, they would be able to do this in real time absolutely unnoticed by the person himself, and from Proxima Centauri or Alpha Centauri they would need a period of time of more than four years for these purposes. If you notice patterns in real time with the far side of the Moon or over a period of more than four years, be sure to report it. We cannot remain silent about this.
Everything on earth has its own unique neutrino background and, as a result, for humans it can serve as medical support; each speck of dust has its own neutrino background, which is important for positioning systems in space for drones, robots, autopilots, and humanoid androids.
As an ordinary person, I am more interested in neutrinos from the point of view of organizing communications and positioning in space as the closest area of ââapplication in human life and potentially as the fastest-growing concept of investing in neutrinos, but I do not argue that there are other more expensive aspects of using neutrinos from an investment point of view. With the use of neutrino-based communication, the usual barriers of known radio and laser types of communication are lost. Mirroring, interference and quantum technologies make this type of communication almost impossible to hack. Agree, shouting into the radio wave of your phone or WI-FI router to the entire known area is, in principle, not the best idea even if there are several encryptions, although many people probably donât even realize this.
#investment #InvestSmart #science #quantumcomputing
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Healthy food
Here I believe more in the cultivation of artificial food from incubators, sports nutrition, and vitamin complexes. Food produced in modern agriculture is at risk of transmitting harmful microbes and fungal viruses.
Harmful microbes, viruses and fungi are a natural communication channel for humans and all of nature, the instinct of self-preservation, community, ecosystem balance - and cannot be used in their natural form for the future of humanity, space travel. Some intelligence services discover, actively and successfully suppress methods of âdispersingâ such channels by undermining the immunity of a healthy person - the victims, but in such reports there is not a word about dummies - hunted and poisoned victims of crime, hostages, the statute of limitations of crimes and how big this fungus-like net.
Moreover, it is unclear how the consumption of ready-made amino acids and other âfastâ elements in food instead of the long process of digestion will affect digestion and brain activity in the long term, but I can assume that with the release of energy in favor of healthy brain activity.
There are developments in the production of artificial food from incubators, they are successfully used as well as sports nutrition and vitamin complexes. Moreover, most packaging materials meet the conditions of tightness and strength. Products in packaging are stored under appropriate temperature conditions.
#science #dna #Medicine
Here I believe more in the cultivation of artificial food from incubators, sports nutrition, and vitamin complexes. Food produced in modern agriculture is at risk of transmitting harmful microbes and fungal viruses.
Harmful microbes, viruses and fungi are a natural communication channel for humans and all of nature, the instinct of self-preservation, community, ecosystem balance - and cannot be used in their natural form for the future of humanity, space travel. Some intelligence services discover, actively and successfully suppress methods of âdispersingâ such channels by undermining the immunity of a healthy person - the victims, but in such reports there is not a word about dummies - hunted and poisoned victims of crime, hostages, the statute of limitations of crimes and how big this fungus-like net.
Moreover, it is unclear how the consumption of ready-made amino acids and other âfastâ elements in food instead of the long process of digestion will affect digestion and brain activity in the long term, but I can assume that with the release of energy in favor of healthy brain activity.
There are developments in the production of artificial food from incubators, they are successfully used as well as sports nutrition and vitamin complexes. Moreover, most packaging materials meet the conditions of tightness and strength. Products in packaging are stored under appropriate temperature conditions.
#science #dna #Medicine
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String Theory or Theory of Everything
According to this theory, the world consists of oscillating strings, again, which is done for ease of perception, let's call them some kind of collapsed spaces, well, pinch yourself - this will be some kind of example of a collapsed oscillating space - it is clearly not convenient, but we accept it as a fact.
Then it turns out that if you smooth out space, the world will turn out to be absolutely empty. Such a perfect vacuum. Where vacuum is used in industry is metallurgy, high-speed transport, insulation in high-voltage equipment and much more.
We can also assume the existence of certain two reference points, the first reference point is the reference point from the beginning of vibrations to a certain moment, identical for all strings, and the second point is the repetition point of the string vibration cycle.
If one space moves in another at the speed of light, and inside this space, like a telescope, another space moves at the speed of light, then we overcome the speed of light.
Such speeds threaten us with the emergence of black holes and new universes when one space is literally blown into another at speeds above the speed of light through a certain region that is less than elementary particles, but even less than fundamental particles, splits into such tiny structures and all this dust is blown into another space which does not exist in our space. It is not surprising that after such an execution, the new universe from the smallest collapsed space will look more like a sieve with new black holes than one filled with life and technology. This is of course hell. But maybe that's just how the world works.
#binance #innovation #science #highspeed #highvoltage
Photo: BIXEL
According to this theory, the world consists of oscillating strings, again, which is done for ease of perception, let's call them some kind of collapsed spaces, well, pinch yourself - this will be some kind of example of a collapsed oscillating space - it is clearly not convenient, but we accept it as a fact.
Then it turns out that if you smooth out space, the world will turn out to be absolutely empty. Such a perfect vacuum. Where vacuum is used in industry is metallurgy, high-speed transport, insulation in high-voltage equipment and much more.
We can also assume the existence of certain two reference points, the first reference point is the reference point from the beginning of vibrations to a certain moment, identical for all strings, and the second point is the repetition point of the string vibration cycle.
If one space moves in another at the speed of light, and inside this space, like a telescope, another space moves at the speed of light, then we overcome the speed of light.
Such speeds threaten us with the emergence of black holes and new universes when one space is literally blown into another at speeds above the speed of light through a certain region that is less than elementary particles, but even less than fundamental particles, splits into such tiny structures and all this dust is blown into another space which does not exist in our space. It is not surprising that after such an execution, the new universe from the smallest collapsed space will look more like a sieve with new black holes than one filled with life and technology. This is of course hell. But maybe that's just how the world works.
#binance #innovation #science #highspeed #highvoltage
Photo: BIXEL
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Supersonic barrier
When lightning strikes between the sky and the earth, we observe a bright flash and lines of light in the sky, after which, depending on the distance to us, we hear thunder. Both light and sound from the source to our senses have traveled a certain direct path and a reflected one, you can imagine this picture as light from lightning and then a sound wave directly and indirectly going around all the empty space around, reflected from every house, tree, road in the area and then again reached us, we have a picture of the area.
At the moment of the strike, the lightning overcame the supersonic barrier, from which we hear these strongest peals of thunder, and in our usual understanding of the world, this supersonic barrier is not capable of serving as a fulcrum for a further push; it is simply an air mass between the sky and the earth, which at the moment of the lightning strike forms in its path an area of ââhigh pressure and with each lightning strike it must be overcome.
This is another fairly simple perception of the world around you that you can always use.
#binance #science
Photo: BIXEL
When lightning strikes between the sky and the earth, we observe a bright flash and lines of light in the sky, after which, depending on the distance to us, we hear thunder. Both light and sound from the source to our senses have traveled a certain direct path and a reflected one, you can imagine this picture as light from lightning and then a sound wave directly and indirectly going around all the empty space around, reflected from every house, tree, road in the area and then again reached us, we have a picture of the area.
At the moment of the strike, the lightning overcame the supersonic barrier, from which we hear these strongest peals of thunder, and in our usual understanding of the world, this supersonic barrier is not capable of serving as a fulcrum for a further push; it is simply an air mass between the sky and the earth, which at the moment of the lightning strike forms in its path an area of ââhigh pressure and with each lightning strike it must be overcome.
This is another fairly simple perception of the world around you that you can always use.
#binance #science
Photo: BIXEL
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DNA_2
The main direction of DNA technology is still human health. Whatever one may say, no cyber bone will last you more than a couple of decades, simply because of the fatigue of the material, unlike native biological material that successfully performs its functions throughout life.
The emergence of new medicines and techniques based on DNA technologies is taking medicine to a completely different innovative breakthrough level, but at the same time they are several or several orders of magnitude more expensive than existing modern services. Already now, companies have been created and are present on the market producing a new generation of medicines based on DNA technologies at a price of several million dollars per course. Access to which patients from many countries is limited, which involuntarily shackles them into numbing horror. Businesses are quite undervalued, underinvested and often survive only on huge government subsidies.
Not to mention such expectations from DNA technology as the restoration of lost teeth, damaged areas of tissue, limbs, as an investor it is still important to understand the root cause for the successful implementation of technologies.
It is difficult to talk about expectations that DNA technologies can affect life expectancy; the issue is rather complex, more complex than it seems, most likely contains many interdependencies, and is rather incompletely studied.
I am sure that essential drugs, vitamins, sports and specialized nutrition will never disappear and will always be in the first category of availability.
All this leads to the fact that the health of each person will be spoken of as being of significant value, health data will be strictly protected, encrypted, stored and taken into account, not only in hospitals, but also in insurance companies and specialized branches of banks, crypto companies, thereby strengthening the breakthrough in medicine.
#binance #dna #investment #science #Medicine
Photo: BIXEL
The main direction of DNA technology is still human health. Whatever one may say, no cyber bone will last you more than a couple of decades, simply because of the fatigue of the material, unlike native biological material that successfully performs its functions throughout life.
The emergence of new medicines and techniques based on DNA technologies is taking medicine to a completely different innovative breakthrough level, but at the same time they are several or several orders of magnitude more expensive than existing modern services. Already now, companies have been created and are present on the market producing a new generation of medicines based on DNA technologies at a price of several million dollars per course. Access to which patients from many countries is limited, which involuntarily shackles them into numbing horror. Businesses are quite undervalued, underinvested and often survive only on huge government subsidies.
Not to mention such expectations from DNA technology as the restoration of lost teeth, damaged areas of tissue, limbs, as an investor it is still important to understand the root cause for the successful implementation of technologies.
It is difficult to talk about expectations that DNA technologies can affect life expectancy; the issue is rather complex, more complex than it seems, most likely contains many interdependencies, and is rather incompletely studied.
I am sure that essential drugs, vitamins, sports and specialized nutrition will never disappear and will always be in the first category of availability.
All this leads to the fact that the health of each person will be spoken of as being of significant value, health data will be strictly protected, encrypted, stored and taken into account, not only in hospitals, but also in insurance companies and specialized branches of banks, crypto companies, thereby strengthening the breakthrough in medicine.
#binance #dna #investment #science #Medicine
Photo: BIXEL
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Four-dimensional space
One-dimensional space is space on a straight line, two-dimensional is space on a plane, three-dimensional is our world in which we live and it is easiest to perceive it in this way; in our world, modern technologies compete for speeds in the smallest fractions of a second and therefore this is its adequate perception. Four-dimensional space goes beyond three-dimensional space, and if we take our three-dimensional world, it will act as a cross-section of the four-dimensional world. Probably the simplest explanation would be using the example of chicken broth, which is prepared in cafe-restaurants as a dressing for dishes, so the cauldron of broth from the chef in the restaurant kitchen is a four-dimensional space, and its cross-section by our three-dimensional world is a dish with a ladle portion of the same chicken broth. In this example, we only neglect how this chicken broth got to our dish for ease of perception.
Another representation could be a four-dimensional space with a single particle, which would be represented in our three-dimensional world as a set of sections that make up more complex elementary particles and atoms. But this is also a purely hypothetical idea, since there is a problem of some kind of feedback.
In four-dimensional space, our wallet or available funds could be represented, and the asset could be one of its three other spatial embodiments.
#binance #Wallet #science
Photo: BIXEL
One-dimensional space is space on a straight line, two-dimensional is space on a plane, three-dimensional is our world in which we live and it is easiest to perceive it in this way; in our world, modern technologies compete for speeds in the smallest fractions of a second and therefore this is its adequate perception. Four-dimensional space goes beyond three-dimensional space, and if we take our three-dimensional world, it will act as a cross-section of the four-dimensional world. Probably the simplest explanation would be using the example of chicken broth, which is prepared in cafe-restaurants as a dressing for dishes, so the cauldron of broth from the chef in the restaurant kitchen is a four-dimensional space, and its cross-section by our three-dimensional world is a dish with a ladle portion of the same chicken broth. In this example, we only neglect how this chicken broth got to our dish for ease of perception.
Another representation could be a four-dimensional space with a single particle, which would be represented in our three-dimensional world as a set of sections that make up more complex elementary particles and atoms. But this is also a purely hypothetical idea, since there is a problem of some kind of feedback.
In four-dimensional space, our wallet or available funds could be represented, and the asset could be one of its three other spatial embodiments.
#binance #Wallet #science
Photo: BIXEL
Scientists from Cambridge have created a memory for computers that works like a brain
The new technology can fit 10 to 100 times more information on one device and process it in one place. The new memory processes data in a similar way as synapses in the human brain. A feature of the memory is resistance switching, which is capable of a continuous range of states, unlike traditional memory, which has only two states: one or zero.
Prototype device based on hafnium oxide, a material already used in the semiconductor industry. The technology was patented by the Cambridge Business Enterprise.
One potential solution to the problem of inefficient computer memory is a new type of technology known as resistive switching memory. Conventional memory devices are capable of two states: one or zero. A functioning resistive switching memory device however, would be capable of a continuous range of states â computer memory devices based on this principle would be capable of far greater density and speed.
âA typical USB stick based on continuous range would be able to hold between ten and 100 times more information, for example,â said Hellenbrand.
Hellenbrand and his colleagues developed a prototype device based on hafnium oxide, an insulating material that is already used in the semiconductor industry. The issue with using this material for resistive switching memory applications is known as the uniformity problem. At the atomic level, hafnium oxide has no structure, with the hafnium and oxygen atoms randomly mixed, making it challenging to use for memory applications.
However, the researchers found that by adding barium to thin films of hafnium oxide, some unusual structures started to form, perpendicular to the hafnium oxide plane, in the composite material.
These vertical barium-rich âbridgesâ are highly structured, and allow electrons to pass through, while the surrounding hafnium oxide remains unstructured. At the point where these bridges meet the device contacts, an energy barrier was created, which electrons can cross. The researchers were able to control the height of this barrier, which in turn changes the electrical resistance of the composite material.
âThis allows multiple states to exist in the material, unlike conventional memory which has only two states,â said Hellenbrand.
Unlike other composite materials, which require expensive high-temperature manufacturing methods, these hafnium oxide composites self-assemble at low temperatures. The composite material showed high levels of performance and uniformity, making them highly promising for next-generation memory applications.
A patent on the technology has been filed by Cambridge Enterprise, the Universityâs commercialisation arm.
âWhatâs really exciting about these materials is they can work like a synapse in the brain: they can store and process information in the same place, like our brains can, making them highly promising for the rapidly growing AI and machine learning fields,â said Hellenbrand.
The researchers are now working with industry to carry out larger feasibility studies on the materials, in order to understand more clearly how the high-performance structures form. Since hafnium oxide is a material already used in the semiconductor industry, the researchers say it would not be difficult to integrate into existing manufacturing processes.
The research was supported in part by the U.S. National Science Foundation and the Engineering and Physical Sciences Research Council (EPSRC), part of UK Research and Innovation (UKRI).
#GOATMoments #science
Prototype device based on hafnium oxide, a material already used in the semiconductor industry. The technology was patented by the Cambridge Business Enterprise.
One potential solution to the problem of inefficient computer memory is a new type of technology known as resistive switching memory. Conventional memory devices are capable of two states: one or zero. A functioning resistive switching memory device however, would be capable of a continuous range of states â computer memory devices based on this principle would be capable of far greater density and speed.
âA typical USB stick based on continuous range would be able to hold between ten and 100 times more information, for example,â said Hellenbrand.
Hellenbrand and his colleagues developed a prototype device based on hafnium oxide, an insulating material that is already used in the semiconductor industry. The issue with using this material for resistive switching memory applications is known as the uniformity problem. At the atomic level, hafnium oxide has no structure, with the hafnium and oxygen atoms randomly mixed, making it challenging to use for memory applications.
However, the researchers found that by adding barium to thin films of hafnium oxide, some unusual structures started to form, perpendicular to the hafnium oxide plane, in the composite material.
These vertical barium-rich âbridgesâ are highly structured, and allow electrons to pass through, while the surrounding hafnium oxide remains unstructured. At the point where these bridges meet the device contacts, an energy barrier was created, which electrons can cross. The researchers were able to control the height of this barrier, which in turn changes the electrical resistance of the composite material.
âThis allows multiple states to exist in the material, unlike conventional memory which has only two states,â said Hellenbrand.
Unlike other composite materials, which require expensive high-temperature manufacturing methods, these hafnium oxide composites self-assemble at low temperatures. The composite material showed high levels of performance and uniformity, making them highly promising for next-generation memory applications.
A patent on the technology has been filed by Cambridge Enterprise, the Universityâs commercialisation arm.
âWhatâs really exciting about these materials is they can work like a synapse in the brain: they can store and process information in the same place, like our brains can, making them highly promising for the rapidly growing AI and machine learning fields,â said Hellenbrand.
The researchers are now working with industry to carry out larger feasibility studies on the materials, in order to understand more clearly how the high-performance structures form. Since hafnium oxide is a material already used in the semiconductor industry, the researchers say it would not be difficult to integrate into existing manufacturing processes.
The research was supported in part by the U.S. National Science Foundation and the Engineering and Physical Sciences Research Council (EPSRC), part of UK Research and Innovation (UKRI).
#GOATMoments #science
Exploring the Pinnacle of Scientific Achievement in 2023. đ§Čđ§Șđ§«đ§Źđđđ©đ»âđŹđŹđđ„Œ
In 2023, Science magazine highlighted remarkable scientific breakthroughs across domains, showcasing groundbreaking advancements that captivated the scientific community.
1. Revolutionary Weight Loss Drugs:
New GLP-1 mimicking drugs combat obesity, showing unexpected heart benefits.
2. Global Warming's Unforeseen Effect:
Antarctica's carbon pump slowdown raises concerns about accelerated global warming.
3. Hydrogen as a Green Fuel:
Mali's sustainable hydrogen source promises cleaner energy with minimal environmental impact.
4. AI's Advancement in Weather Prediction:
Google DeepMind's GraphCast AI outperforms traditional weather prediction systems, shaping the future of forecasting.
5. Malaria Prevention Advances:
WHO approves R21/Matrix-M vaccine for general use, marking a significant step in malaria prevention.
6. Progress in Alzheimer's Treatment:
"Donanemab" and "Lecanemab" drugs show promise in slowing Alzheimer's progression, with lingering questions on long-term efficacy.
7. Archaeological Discovery Through Gravitational Waves:
Shock waves from merging supermassive black holes hint at human presence in the Americas 5,000 years earlier than thought.
8. Academic Strikes Shape U.S. History:
University of California's academic strike leads to significant pay increases, showcasing the power of collective action in academia.
9. Exascale Computing Unveiled:
Frontier computer at Oak Ridge National Laboratory achieves 1 quintillion operations per second, pushing the boundaries of computational capabilities.
#science #2023
In 2023, Science magazine highlighted remarkable scientific breakthroughs across domains, showcasing groundbreaking advancements that captivated the scientific community.
1. Revolutionary Weight Loss Drugs:
New GLP-1 mimicking drugs combat obesity, showing unexpected heart benefits.
2. Global Warming's Unforeseen Effect:
Antarctica's carbon pump slowdown raises concerns about accelerated global warming.
3. Hydrogen as a Green Fuel:
Mali's sustainable hydrogen source promises cleaner energy with minimal environmental impact.
4. AI's Advancement in Weather Prediction:
Google DeepMind's GraphCast AI outperforms traditional weather prediction systems, shaping the future of forecasting.
5. Malaria Prevention Advances:
WHO approves R21/Matrix-M vaccine for general use, marking a significant step in malaria prevention.
6. Progress in Alzheimer's Treatment:
"Donanemab" and "Lecanemab" drugs show promise in slowing Alzheimer's progression, with lingering questions on long-term efficacy.
7. Archaeological Discovery Through Gravitational Waves:
Shock waves from merging supermassive black holes hint at human presence in the Americas 5,000 years earlier than thought.
8. Academic Strikes Shape U.S. History:
University of California's academic strike leads to significant pay increases, showcasing the power of collective action in academia.
9. Exascale Computing Unveiled:
Frontier computer at Oak Ridge National Laboratory achieves 1 quintillion operations per second, pushing the boundaries of computational capabilities.
#science #2023
What are the most mind-blowing facts about the human brain?
Here, here are some fascinating facts about the human brain:
Your Brain Generates About 12-25 Watts of Electricity: This is enough power to light up a low-wattage LED light bulb.
The Human Brain is the Fattest Organ in the Body: Approximately 60% of it is made of fat.
Information Travels at Different Speeds Within Different Types of Neurons: It can be as slow as 0.5 meters/sec or as fast as 120 meters/sec.
The Adult Brain Weighs About 3 Pounds (1.4 kg): Despite making up just 2% of a personâs total body weight, the brain uses around 20% of the bodyâs energy.
There are around 86 Billion Neurons in a Human Brain: And each neuron can transmit about 1,000 nerve impulses per second and make as many as tens of thousands of synaptic contacts with other neurons.
Human Brains Have Amazing Plasticity: The brain has the ability to rewire itself and even create new neurons â a process known as neuroplasticity.
Your Brain Canât Feel Pain: Even though the brain processes pain signals, the brain itself does not actually feel pain because it lacks pain receptors.
Brain Activity Creates Enough Heat to Boil Water: Your brain generates about as much heat as a small light bulb even when youâre sleeping.
Memory Capacity is Nearly Limitless:According to some estimations, our brains could potentially store around one petabyte (or a million gigabytes) worth of information in our lifetimes.
Although Smaller in Size, The Human Brain is More Efficient Than Most Powerful Computers: In terms of processing speed and energy consumption, our brains outperform the capabilities of modern supercomputers.
These discoveries emphasize how amazing and complex our brains are!
Kindly consider supporting my work by upvoting this article, leaving your comments below, and sharing it with your friends.
#GOATMoments #science
Your Brain Generates About 12-25 Watts of Electricity: This is enough power to light up a low-wattage LED light bulb.
The Human Brain is the Fattest Organ in the Body: Approximately 60% of it is made of fat.
Information Travels at Different Speeds Within Different Types of Neurons: It can be as slow as 0.5 meters/sec or as fast as 120 meters/sec.
The Adult Brain Weighs About 3 Pounds (1.4 kg): Despite making up just 2% of a personâs total body weight, the brain uses around 20% of the bodyâs energy.
There are around 86 Billion Neurons in a Human Brain: And each neuron can transmit about 1,000 nerve impulses per second and make as many as tens of thousands of synaptic contacts with other neurons.
Human Brains Have Amazing Plasticity: The brain has the ability to rewire itself and even create new neurons â a process known as neuroplasticity.
Your Brain Canât Feel Pain: Even though the brain processes pain signals, the brain itself does not actually feel pain because it lacks pain receptors.
Brain Activity Creates Enough Heat to Boil Water: Your brain generates about as much heat as a small light bulb even when youâre sleeping.
Memory Capacity is Nearly Limitless:According to some estimations, our brains could potentially store around one petabyte (or a million gigabytes) worth of information in our lifetimes.
Although Smaller in Size, The Human Brain is More Efficient Than Most Powerful Computers: In terms of processing speed and energy consumption, our brains outperform the capabilities of modern supercomputers.
These discoveries emphasize how amazing and complex our brains are!
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