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Jaguar announced that it has signed a deal with Tesla to get access to the Supercharger network. The British automaker also agreed to adopt the Tesla-designed NACS connector in North America.

The NACS domino effect has been in full force for the past few months.

After Ford and GM announced that they will be adopting Tesla’s newly opened and renamed connector standard, NACS, other automakers have been rushing to make deals with Tesla to access the Supercharger network as part of a transition to the new connector.

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Teslas full-self driving Version 12 has just shocked the World. Elon Musk live-streamed it’s capabilities for the first time, and detailed how it now operates compared to previous versions of Teslas FSD. This really is a mind-blowing moment for Tesla, Tesla owners, and the future of Autonomous Cars.

#tesla.
#fullselfdriving.
#teslafsd.
#robotaxi.
#robotaxis.
#elonmusk.
#artificialintelligence.
#ai.
#autonomy.
#autonomouscar.
#autonomousvehicles.
#electriccars.
#tsla.
#evs.
#electricvehicles.
#teslanews.
#model3
#modely.
#teslaelectriccar.
#waymo.

I’m Will, this is the Tesla Jigsaw. Thanks for your support!

Links.

Continue reading “Tesla’s MIND-BLOWING FSD V.12 Elon Musk Demo | Self-Driving Tesla” | >

After years of anticipation and hard work by NASA’s OSIRIS-REx (Origins, Spectral Interpretation, Resource Identification and Security – Regolith Explorer) team, a capsule of rocks and dust collected from asteroid Bennu finally is on Earth. It landed at 8:52 a.m. MDT (10:52 a.m. EDT) on Sunday, in a targeted area of the Department of Defense’s Utah Test and Training Range near Salt Lake City.

Within an hour and a half, the capsule was transported by helicopter to a temporary clean room set up in a hangar on the training range, where it now is connected to a continuous flow of nitrogen.

Getting the sample under a “nitrogen purge,” as scientists call it, was one of the OSIRIS-REx team’s most critical tasks today. Nitrogen is a gas that doesn’t interact with most other chemicals, and a continuous flow of it into the sample container inside the capsule will keep out earthly contaminants to leave the sample pure for scientific analyses.

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The cosmos seem silent and empty of any great interstellar empires, but perhaps they once existed, and if so, what titanic ruins might they have left behind?

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Credits:
The Fermi Paradox: Fallen Empires.
Episode 412a, September 17, 2023
Produced, Written & Narrated by:
Isaac Arthur.

Editors:

Continue reading “The Fermi Paradox: Fallen Empires” | >

In this episode, we explore how a triple-lens supernova observed by the James Webb Space Telescope could help solve the mystery of the Hubble tension, which is the discrepancy between different measurements of the expansion rate of the Universe. We also learn about the details of the supernova and the galaxy cluster that caused the gravitational lensing effect, and how JWST and other telescopes can use this supernova to test various cosmological models and parameters.

Paper Link:
https://arxiv.org/abs/2309.

Chapters:
00:00 Introduction.
01:10 How JWST Discovered a Rare and Triple-Lens Supernova.
04:13 How H0pe Can Measure the Expansion Rate in a New Way.
09:00 How hOpe can test various cosmological models.
11:26 Outro.
12:24 Enjoy.

Best Telescopes for beginners:

Continue reading “James Webb just Found a Supernova That Could Break the Laws of Physics” | >

One proven method for tracking down the genetic origins of diseases is to knock out a single gene in animals and study the consequences this has for the organism. The problem is that for many diseases, the pathology is determined by multiple genes, complicating the task for scientists trying to pinpoint the contribution of any single gene to the condition. To do this, they would have to perform many animal experiments – one for each desired gene modification.

Researchers led by Randall Platt, Professor of Biological Engineering at the Department of Biosystems Science and Engineering at ETH Zurich in Basel, have now developed a method that will greatly simplify and speed up research with laboratory animals: using the CRISPR-Cas gene scissors, they simultaneously make several dozen gene changes in the cells of a single animal, much like a mosaic.

While no more than one gene is altered in each cell, the various cells within an organ are altered in different ways. Individual cells can then be precisely analyzed. This enables researchers to study the ramifications of many different gene changes in a single experiment.

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The researchers compiled an extensive dataset of over 1,200 distinct cell groups, estimating size ranges, mass, and cell counts for each group across 60 tissue systems in three reference humans — an adult man, woman, and child.

“For the first time, we have systematically measured the size and abundance of cells across all major tissues and organs,” said Dr. Hatton. This spans seven orders of magnitude from tiny red blood cells to large muscle fibers.

While many contemporary works focus on molecular profiling, this study adopts a classical cell biology approach, quantifying morphological features of known cell types. The team integrated decades of histological and anatomical research to establish a framework. They discovered a striking near-inverse relationship between cell size and abundance, implying a trade-off between the two variables.

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Though drug developers have achieved some progress in treating Alzheimer’s disease with medicines that reduce amyloid-beta protein, other problems of the disease, including inflammation, continue unchecked. In a new study, scientists at The Picower Institute for Learning and Memory at MIT describe a candidate drug that in human cell cultures and Alzheimer’s mouse models reduced inflammation and improved memory.

The target of the new “A11” molecule is a genetic transcription factor called PU.1. Prior research has shown that amid Alzheimer’s disease, PU.1 becomes an overzealous director of inflammatory gene expression in the brain’s microglia immune cells. A11 suppresses this problematic PU.1 activity, the new research shows, by recruiting other proteins that repress the inflammatory genes PU.1 works to express. But because A11 concentrates mostly in the brain and does not reduce PU.1 levels, it does not appear to disrupt PU.1’s other job, which is to ensure the production of a wide variety of blood cells.

“Inflammation is a major component of Alzheimer’s disease pathology that has been especially hard to treat,” says study senior author Li-Huei Tsai, Picower Professor of Neuroscience at MIT and director of The Picower Institute and MIT’s Aging Brain Initiative. “This preclinical study demonstrates that A11 reduces inflammation in human microglia-like cells, as well as in multiple mouse models of Alzheimer’s disease, and significantly improves cognition in the mice. We believe A11 therefore merits further development and testing.”

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