Everyone wants to meet (and snuggle!) the new baby. How can parents let loved ones know precautions need to be taken so Baby doesn’t get sick?
A thrifty study uncovers a wealth of data about one of the world’s largest and most elusive species.
Batteries made from waste and methane offer lower CO2 emissions than current technologies.
It’s also being claimed that the technology has the potential to improve fast-charging speed by up to 50%, making EV ownership even more convenient. Lithium-sulfur batteries are expected to cost less than half the price per kWh of current lithium-ion batteries, according to Stellantis.
The batteries will be produced using waste materials and methane, with significantly lower CO2 emissions than any existing battery technology. Zeta Energy battery technology is intended to be manufacturable within existing gigafactory technology and would leverage a short, entirely domestic supply chain in Europe or North America, according to a press release.
Ned Curic, Stellantis’s Chief Engineering and Technology Officer, stated that the collaboration with Zeta Energy is another step in helping advance the company’s electrification strategy as they work to deliver clean, safe, and affordable vehicles.
Understanding neonatal brain injury — can it teach us about adult-onset neurodegenerative disease?
Envisioning armies of electronically controllable insects is probably nightmare fuel for most people. But scientists think they could help rescue workers scour challenging and hazardous terrain. An automated cyborg cockroach factory could help bring the idea to life.
The merger of living creatures with machines is a staple of science fiction, but it’s also a serious line of research for academics. Several groups have implanted electronics into moths, beetles, and cockroaches that allow simple control of the insects.
However, building these cyborgs is tricky as it takes considerable dexterity and patience to surgically implant electrodes in their delicate bodies. This means that creating enough for most practical applications is simply too time-consuming.
Its a problem, but im sure ASI by 2035 will solve for a way to use a Crispr type tool with zero unintended alterations. Look for a way to use w/ out alterations in meantime, but worst case ASI will solve it.
Genome editing with various CRISPR-Cas molecule complexes has progressed rapidly in recent years. Hundreds of labs around the world are now working to put these tools to clinical use and are continuously advancing them.
CRISPR-Cas tools allow researchers to modify individual building blocks of genetic material in a precise and targeted manner. Gene therapies based on such gene editing are already being used to treat inherited diseases, fight cancer and create drought-and heat-tolerant crops.
The CRISPR-Cas9 molecular complex, also known as genetic scissors, is the most widely used tool by scientists around the world. It cuts the double-stranded DNA at the exact site where the genetic material needs to be modified. This contrasts with newer gene-editing methods, which do not cut the double strand.
“AI” AS THE MODERN VERSION OF BELEIF IN A MAGICAL ALCHEMY. Although widely promoted as being possible, it grows increasingly ridiculous the more that complexity is added. This means a gigantic market bubble is building up for a tremendous burst, UNLESS, the obvious is done: simply treat it as any other useful human-created tool, such as a hammer, a screw driver, or an airplane. Are screw drivers going to rise up and threaten humanity? It is not physically possible in the real physical universe that “ai”, or any other human-created tool, will ever pose a danger to humanity. It CAN be misused by humans, but cannot of its own non-existent will decide to be a danger. It is high time to stop being afraid of the modern version of non-existent ghosts and goblins, otherwise known as “ai.” Stop scaring little boys and girls with superstitious monster stories and, instead, tell them what a wonderful new tool we now have! Like any tool, it increases the degree of freedom and power of the human mind to intervene in the universe. If we want a real “ai”, that will come from our speeding up the evolution of intelligent animals such as octopuses and seeding them on places like the oceans of Europa, the moon of Jupiter.
A demo video shows OpenAI’s new o1 tool measuring liquids in inches.
How much does sulfur emitted by marine life cool the atmosphere and help mitigate the effects of climate change? This is what a recent study published in Science Advances hopes to address as an international team of researchers conducted a first-time numerical analysis regarding the amount of sulfur is emitted by marine life and how much it cools the climate, with an emphasis on the Southern Ocean. This study holds the potential to help researchers, climate scientists, and the public better understand how the planet cools itself, thus enabling us to work together to protect it.
“This is the climatic element with the greatest cooling capacity, but also the least understood,” said Dr. Charel Wohl, who is a senior research associate at the University of East Anglia and lead author of the study. “We knew methanethiol was coming out of the ocean, but we had no idea about how much and where. We also did not know it had such an impact on climate. Climate models have greatly overestimated the solar radiation actually reaching the Southern Ocean, largely because they are not capable of correctly simulating clouds. The work done here partially closes the longstanding knowledge gap between models and observations.”
For the study, the researchers produced a database of ocean methanethiol concentrations with the goal of estimating their produced emissions and how this contributes to ocean-derived aerosols that are responsible for cooling the planet. In the end, the researchers discovered that methanethiol emissions increase the aerosol amount between 30 to 70 percent over the Southern Ocean while simultaneously decreasing atmospheric oxidants and increasing planetary cooling. The Southern Ocean is located around Antarctica and serves as a staging ground for the world’s oceans, influencing their circulation.
Researchers at University of California San Diego School of Medicine and their colleagues have developed the first comprehensive map of the dramatic changes that take place in the blood system over the course of the human lifetime.
The study was published on December 5 in Nature Methods.
The team quantified the gene expression of more than 58,000 individual hematopoietic (blood) stem cells at seven stages, from early fetal development to old age. They documented consistent changes in the types of blood cells that are produced in response to the functional demands of each life stage.