Gigantic lions prowled North America for tens of thousands of years before going extinct. Where did they go?
AutoCrawler.
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Web automation is a significant technique that accomplishes complicated web tasks by automating common web actions, enhancing operational efficiency, and reducing the need for…
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Scientists may have figured out how a massive “superstructure” of igneous rock lurking below the surface of the Pacific Ocean was formed.
An Ongoing Meta-analysis of Gravitational Wave Signals may soon Prove that Space Remembers: permanent memory imprints in spacetime may soon be detected, which will be a validation of Nassim Haramein and our research team’s prediction that space has the property of memory, in which we described how the informational imprint of memory in space is what holographically generates time—that is to say that 4D spacetime is a hologram of a 3D voxel information network—as well as ordering properties underlying dynamics of organized matter. The gravitational wave memory effect is a prediction of general relativity, and physicists have devised a test of this interesting spacememory effect via a meta-analysis of gravitational wave detector data. The presence of memory effects in gravitational wave signals not only provides the chance to test an important aspect of general relativity, but also represents a potentially non-negligible contribution to the waveform for certain gravitational wave events. As well, memory properties of space will have far-reaching implications, from probing theories of quantum gravity and unified physics to potential applications in telecommunications technologies.
Tesla has leaked some details about its elusive new Model 3 Performance ‘Ludicrous’, which is expected to launch any day.
The new Model 3 Performance, which could be named ‘Ludicrous’ based on the badges seen on some prototypes, has been expected to launch any day for over a month.
It was confirmed that the automaker was planning a new performance version of the Model 3 Highland with new badges showing up in the updated Tesla parts catalog.
The Automotive in the Software-Driven Era community, part of the DRIVE-A initiative, has identified six key actions crucial for unlocking the full potential of smart road transport infrastructure and, with that, for reaping the potential benefits of the software-defined-vehicle ecosystem. These six actions are based on three principles, collaboration, innovation and efficiency:
Advancing smart infrastructure requires a collaborative effort among involved players. Figure 2, below, provides a collaboration framework and key collaborative areas. Public-private partnerships help build a robust, cohesive and inclusive smart infrastructure network.
Paul Farrell, EVP and Chief Strategy Officer of BorgWarner highlights some of the challenges and importance of such collaborations: “Collaboration around the infrastructure is very complex and multidisciplinary. It involves questions about who owns the data, who supplies the hardware, who installs it and who integrates it into holistic solutions. Yet, it is key to, for example, advance the EV charging infrastructure that the transition to electrification requires.”
Michio Kaku: 3 mind-blowing predictions about the future Watch the newest video from Big Think: https://bigth.ink/NewVideoLearn skills from the world’s top m…
China released the world’s first set of high-precision geological maps of the moon drawn by China’s scientific research team on Sunday, mainly based on scientific exploration data from the Chang’e Project.
The highest precision geological atlas of the whole moon, with a scale of 1:2.5 million, can visualize the craters on the lunar surface, rocks and minerals found on the satellite of the Earth, and what kind of geological activity the moon has experienced.
As the internationally used geological maps of the moon obtained by the Apollo program of the US cannot reflect the latest research results of mankind in recent decades, they are no longer able to meet the needs of future scientific research and lunar exploration, according to the Chinese Academy of Sciences (CAS).
Experts have been busy working on producing advanced materials for modern electronic devices to meet this escalating demand.
Now, a significant milestone in this endeavor has been achieved by a team of researchers at the Georgia Institute of Technology, who have successfully engineered the world’s first functional semiconductor using graphene.