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Archive for the ‘space’ category: Page 212

May 27, 2023

Kratos to deploy more autonomous platooning trucks in Midwest

Posted by in categories: robotics/AI, space

https://youtube.com/watch?v=N-GkbFXq3Ts

Platooning technology is allowing lower-cost entry to the autonomous space, where its reach includes the existing truck market rather than solely on “customers who can afford to buy new trucks,” according to Kratos.

“Couple that with the increasing driver shortage and the potential multiplies,” Steve Fendley, president of Kratos Unmanned Systems Division, said in a statement.

Continue reading “Kratos to deploy more autonomous platooning trucks in Midwest” »

May 27, 2023

This Rocket-powered Plane Could Fly From New York to Sydney in Less Than 90 Minutes

Posted by in category: space

Supersonic airplanes are old news. But supersonic airplanes that can fly nine times the speed of sound? That’s something else.

Texas-based company Venus Aerospace is designing a passenger plane called Stargazer that’s capable of flying at Mach 9, or approximately 6,900 miles per hour — which means you’d be able to fly from New York to Sydney in less than 90 minutes. By comparison, the Concorde, which was the only supersonic passenger plane ever to fly commercially, flew at about Mach 2, or more than 1,500 miles per hour.

May 27, 2023

AI is helping astronomers make new discoveries about the universe faster than ever before

Posted by in categories: robotics/AI, space

AI has now spread into every field of astronomy and is helping astronomers learn more about the universe at an astonishing rate.

May 26, 2023

Scientists may be able to put Mars-bound astronauts into ‘suspended animation’ using sound waves, mouse study suggests

Posted by in category: space

Firing ultrasound signals into rodent brains puts them in a torpor-like state. Scientists are wondering if it could be used on humans.

May 26, 2023

NASA Mars robot technology adapted for Earth: Saving lives in disaster response

Posted by in categories: robotics/AI, space

Dr. Alice Agogino’s Mars robot technology finds terrestrial applications, revolutionizing disaster response and public safety with Squishy Robotics Inc.

For her NASA-funded spherical skeleton robots intended for interplanetary exploration, Dr. Alice Agogino, a famous scientist and the head of the Berkeley Emergent Space Tensegrities Lab at the University of California, Berkeley, has found terrestrial applications.

The robots developed by Agogino, which were initially meant for data collection on Mars or the Moon, may help first responders in the event of calamities on Earth.

May 26, 2023

International Space Development Conference 2023

Posted by in category: space

The International Space Development Conference (ISDC) connects the top leaders of current space efforts with NSS membership, students, and the public.

May 25, 2023

Is the Universe a quantum fluctuation?

Posted by in categories: particle physics, quantum physics, space

If there are energy fluctuations in a quantum vacuum, very interesting things can happen. For example, the E = mc2 relation tells us that energy and matter are interconvertible. A vacuum energy fluctuation can be converted into particles of matter. Sounds weird? Maybe, but it happens all the time. These particles are called virtual particles, living a fleeting existence before plunging back into the ever-busy quantum vacuum.

Tryon extrapolated the idea of quantum fluctuations to the Universe as a whole. He reasoned that if all that existed was a quantum vacuum, a bubble-like energy fluctuation out of this vacuum could have given rise to the Universe. Tryon proposed that the whole Universe is the result of a vacuum fluctuation, originating from what we could call quantum nothingness.

May 25, 2023

Large metalenses are produced on a mass scale

Posted by in categories: particle physics, space

From eyeglasses to space telescopes, lenses play crucial roles in technologies ranging from the mundane to the cutting edge. While traditional refractive lenses are a fundamental building block of optics, they are bulky and this can restrict how they are used. Metalenses are much thinner than conventional lenses and in the last two decades plenty of light has been shone on the potential of these devices, which sparkle as a promising alternative.

Metalenses are thin structures made of arrays of “meta-atoms”, which are motifs with dimensions that are smaller than the wavelength of light. It is these meta-atoms that interact with light and change its direction of propagation.

Unlike conventional refractive lenses, metalenses can be less than one micron thick, reducing the overall volume of optical systems. They can also provide ideal diffraction-limited focusing performance, while avoiding some problems associated with refractive lenses such as aberrations.

May 25, 2023

Researchers transform our understanding of crystals

Posted by in categories: biological, chemistry, engineering, nanotechnology, particle physics, solar power, space, sustainability

When most people think of crystals, they picture suncatchers that act as rainbow prisms or the semi-transparent stones that some believe hold healing powers. However, to scientists and engineers, crystals are a form of materials in which their constituents—atoms, molecules, or nanoparticles—are arranged regularly in space. In other words, crystals are defined by the regular arrangement of their constituents. Common examples are diamonds, table salt, or sugar cubes.

However, in research just published in Soft Matter, a team led by Rensselaer Polytechnic Institute’s Sangwoo Lee, associate professor in the Department of Chemical and Biological Engineering, discovered that crystal structures are not necessarily always regularly arranged. The discovery advances the field of materials science and has unrealized implications for the materials used for semiconductors, solar panels, and electric vehicle technologies.

One of the most common and important classes of crystal structures is the close-packed structures of regular spheres constructed by stacking layers of spheres in a honeycomb arrangement. There are many ways to stack the layers to construct close-packed structures, and how nature selects specific stacking is an important question in materials and physics research. In the close-packing construction, there is a very unusual structure with irregularly spaced constituents known as the random stacking of two-dimensional hexagonal layers (RHCP). This structure was first observed from cobalt metal in 1942, but it has been regarded as a transitional and energetically unpreferred state.

May 23, 2023

Jupiter’s lightning is strikingly similar to Earth’s

Posted by in categories: climatology, space

Cool photo 📸 📷 🖼 🤳 😎


NASA’s Juno spacecraft has spotted short bursts that make up lightning bolts on Jupiter, showing that Jovian lightning works in much the same way as it does on Earth.

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