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Quantum physics, the science of the very small, often challenges our common sense and intuition. But it also offers new possibilities for technological innovations that go beyond the limits of classical physics. One of these possibilities is the quantum battery, which uses quantum phenomena to store, transfer, and deliver energy more effectively than conventional batteries.

Quantum batteries

Quantum batteriesQuantum batteries are not yet ready for commercial use. Still, they can revolutionize fields that require low-power and portable energy sources, such as smart devices, sensors, and even electric vehicles.

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Meet Alter3, a humanoid robot from the University of Tokyo that can strike various poses, from selfies to playing a spooky ghost, thanks to ChatGPT-4 AI.

In a fusion of cutting-edge technology, a highly advanced humanoid robot has been paired with unparalleled capabilities by leveraging artificial intelligence (AI).

Introducing Alter3, a humanoid robot with the ability to generate spontaneous motion through the utilization of a Large Language Model (LLM), namely GPT-4.

Developed by a University of Tokyo team, Alter3 employs Open AI’s latest tool to dynamically assume various poses, from a selfie stance to mimicking a ghost, all without the need for pre-programmed entries in its database.

Continue reading “Watch ChatGPT-powered humanoid robot pose funny, play terrifying ghost” | >

The model can help evolve “better methods for growing cells for blood transfusions, novel cell therapies, and hematopoietic stem cell transplants.”

Remarkably, heX-Embryoid models developed structures akin to blood islands, the initial sites supporting the generation of blood cells in developing embryos. The study identified progenitors for red blood cells, platelets, and various white blood cell types—a pivotal advancement in the field, according to the team.

Researchers claim the model successfully replicated a process closely resembling the initial stages of blood production in humans. “This is exciting because there are extensive possibilities to apply this model to better understand how blood is formed and develop better methods for growing cells for blood transfusions, novel cell therapies, and hematopoietic stem cell transplants,” said Mo Ebrahimkhani, senior author and an associate professor at the Pittsburgh Liver Institute and the Department of Bioengineering at Pitt, in a statement.

Versatile characteristics

Continue reading “Scientists craft embryo model mimicking early human blood development” | >

To claim your matching donation with Givewell, go to https://www.givewell.org and select Youtube & Isaac Arthur at checkout! What does science tell us about reality and are there pathways to control, change, or re-create it? Visit our Website: http://www.isaacarthur.net Join Nebula: https://go.nebula.tv/isaacarthur Support us on Patreon: / isaacarthur Support us on Subscribestar: https://www.subscribestar.com/isaac-a… Group: / 1,583,992,725,237,264 Reddit: / isaacarthur Twitter: / isaac_a_arthur on Twitter and RT our future content. SFIA Discord Server: / discord Credits: Reality Manipulation Episode 425; December 314, 2023 Produced, Written & Narrated by: Isaac Arthur Editor: Lukas Konecny Music Courtesy of: Steve Cardon.

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Enceladus’ ice plumes may hold the building blocks of life. Researchers have shown unambiguous laboratory evidence that amino acids transported in the ice plumes of Saturn’s moon, Eceladus, can survive impact speeds of up to 4.2 km/s, supporting their detection during sampling by spacecraft.

As astrophysics technology and research continue to advance, one question persists: is there life elsewhere in the universe? The Milky Way galaxy alone has hundreds of billions of celestial bodies, but scientists often look for three crucial elements in their ongoing search: water, energy and organic material. Evidence indicates that Saturn’s icy moon Enceladus is an ‘ocean world’ that contains all three, making it a prime target in the search for life.

During its 20-year mission, NASA’s Cassini spacecraft discovered that ice plumes spew from Enceladus’ surface at approximately 800 miles per hour (400 m/s). These plumes provide an excellent opportunity to collect samples and study the composition of Enceladus’ oceans and potential habitability.

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