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Oct 6, 2024

Quarks Unleashed: Chasing the Critical Point in Quantum Chromodynamics

Posted by in categories: particle physics, quantum physics

Discovering quark behavior: investigating the critical point in quantum chromodynamics.

Oct 6, 2024

The Study No One Talks About

Posted by in categories: biotech/medical, genetics, media & arts

Enjoy the videos and music you love, upload original content, and share it all with friends, family, and the world on YouTube.

Oct 6, 2024

Epic Journey: NASA’s Titan Crawler Makes History Ahead of Artemis II Launch

Posted by in category: space travel

As NASA advances the Artemis II mission, significant strides are being made with the mobile launcher at Kennedy Space Center.

Recently moved back to the Vehicle Assembly Building after undergoing extensive testing and upgrades, the launcher is central to launching the next Moon rocket. Alongside, the crawler-transporter marked a historical milestone, reaching over 2,500 miles since its inception, reinforcing its title as the heaviest self-powered vehicle by Guinness World Records.

Artemis II mission progress at kennedy space center.

Oct 6, 2024

America Pac

Posted by in category: futurism

America PAC was created to support these key values: Secure Borders, Safe Cities, Sensible spending, Fair Justice System, Free Speech, Right to Self-Protection.

Oct 6, 2024

Astronomers Find Cosmic Filaments Rotate Across Hundreds of Millions of Light-Years

Posted by in categories: computing, cosmology, neuroscience, quantum physics

Scientists have discovered that cosmic filaments, the largest known structures in the universe, are rotating. These massive, twisting filaments of dark matter and galaxies stretch across hundreds of millions of light-years and play a crucial role in channeling matter to galaxy clusters. The finding challenges existing theories, as it was previously believed that rotation could not occur on such large scales. The research was confirmed through both computer simulations and real-world data, and it opens up new questions about how these giant structures acquire their spin.

After reading the article, a Reddit user named Kane gained more than 100 upvotes with this comment: “What if galaxy clusters are like neuron and glial clusters in a brain. And dark matter is basically the equivalent of a synapse. It connects galaxies and matter together and is responsible for sending quantum information back and forth like a signal chain.”

Oct 6, 2024

The Proton Radius Riddle — And an Intriguing Coincidence

Posted by in category: media & arts

Enjoy the videos and music you love, upload original content, and share it all with friends, family, and the world on YouTube.

Oct 6, 2024

Sabine Hossenfelder, physicist: ‘If you trust the mathematics, we are immortal’

Posted by in categories: life extension, mathematics

The German scientist argues that information cannot be destroyed and, in principle, it is possible that a higher being, one day, in some way, could reassemble it and bring it back to life.

Oct 6, 2024

A scalable convolutional neural network approach to fluid flow prediction in complex environments

Posted by in categories: chemistry, climatology, robotics/AI

While machine learning methods can be used for accurate flow prediction in complex environments, such as for urban structures30 or turbulent fields31, generalizing these approaches to domains of arbitrary size and complexity remains a challenging problem. One reason is that flows near and around obstacles depend on factors associated with the fluid (i.e., Reynolds number) or domain (i.e., boundary conditions), and fixing either of these conditions puts bounds on the validity of the estimated fields. Thus, if we seek broad applicability, then we should seek the fewest set of model restrictions that together provide the most accurate flow predictions. To this end, our approach has been to deconstruct certain types of domains into individual obstacles that each maintain some level of geometrical similarity, so that a single neural network model can be used to predict flows near all structural boundaries of the domain. Flows between these structural surfaces, at a scale on the order of the obstacle diameter, are predicted using a second neural network model in series with the first. Together, this serial-modeling approach allows for rapid prediction of flows in domains that can be represented by a disjoint set of structural elements. This type of domain is common, for example, in urban and periurban areas, wherein buildings conform to a common structural motif that affects ground-level velocity fields.

Another relevant length scale is the grid size used to digitize individual domains for read-in by the model. Thus, we investigated how flow patterns can be affected when this input resolution is varied. Although our choice of grid size is somewhat arbitrary, it is dense enough to capture variation in the relevant velocity fields near individual obstacles, but not so dense that producing a large enough cohort of CFD-generated training datasets becomes computationally intractable.

Our approach can also be trained to predict flows with a variable inlet velocity, which, in the case of urban wind flow prediction, permits model parameterization in terms of current meteorological conditions. In the specific case of aerial dispersion of chemicals throughout an urban environment, our predicted flows are considered as the advective field of a drift-diffusion model of molecular dispersion. This advection field plays a central role because concentration fluctuations decorrelate in relationship with the velocity fluctuations of the advection field, and spatial heterogeneity in the flow patterns is determined by the sequence of obstacles in the flow path.

Oct 6, 2024

Scientists Made a Breakthrough Using CRISPR for Autoimmune Diseases

Posted by in categories: biotech/medical, innovation

According to the National Institute of Environmental Health Services, nearly 50 million Americans are currently living with an autoimmune condition. It’s the third-largest category of diseases affecting the nation, according to the agency. Doctors and scientists have been using a number of promising CRISPR treatments to address some of these conditions; now, the results of a new study in China could offer a way to make these treatments even more widely available.

As Nature‘s Smriti Mallapaty explains, the study focused on three people whose treatments were created using donor cells as opposed to cells taken from the patients themselves. This is significant because the prospect of using donor cells allows for CRISPR treatments to be developed in larger quantities — something that could make a big difference in a lot of people’s lives around the world.

Mallapaty describes the three patients in the study as having “severe autoimmune conditions.” One of them, a man in his fifties with systemic sclerosis, said that he started feeling better within a few days, and was able to resume working two weeks after the treatment. This particular study isn’t the only one of its kind — Nature‘s reporting mentions that another trial was subsequently conducted with more patients, while another doctor is leading a similar study using donor cells to treat lupus.

Oct 6, 2024

OpenAI released its advanced voice mode to more people. Here’s how to get it

Posted by in category: robotics/AI

The company says the updated version responds to your emotions and tone of voice and allows you to interrupt it midsentence.

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