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A tour of the Space Launch System (SLS) Artemis-I Rocket.
Worm-hole generators by the pound mass: https://greengregs.com/
For gardening in your Lunar habitat Galactic Gregs has teamed up with True Leaf Market to bring you a great selection of seed for your planting. Check it out: http://www.pntrac.com/t/TUJGRklGSkJGTU1IS0hCRkpIRk1K
Awesome deals for long term food supplies for those long missions to deep space (or prepping in case your spaceship crashes: See the Special Deals at My Patriot Supply: www.PrepWithGreg.com.

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An interesting (and futuristic) project being developed in Switzerland…

hydrofluorocarbons hfcs future timeline

Much of Bangkok is being abandoned due to flooding.

Bangkok, with a population of over 12 million, has been sinking underwater for decades. By the early 2030s, it is facing a disaster of epic scale, with much of the city being abandoned.*.

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99 percent of the panels were made of PET.

Do you remember the solar panels that Prof. Paul Dastoor from the University of New Castle and his team produced with a 3D printer? If you don’t, it’s an evergreen story worth remembering. Let’s dive in…

3D printing is a major asset for the energy industry. Four years ago, light-weight, ultra-flexible, recyclable, and inexpensive solar panels came to light by Dastoor and his team.

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The perfect helping hand you need to start and run your business!

The fintech company Workhy effortlessly completes incorporation procedures online and provides financial process management services for entrepreneurs worldwide.

Recognizing the need for technology in terms of starting a business and financial process management, Workhy is an all-in-one platform that enables the establishment of companies and the digital tracking of all taxable transactions.

It is so easy to start a company in the U.S. with Workhy! Complete your online registration now, your establishment process will be completed quickly.

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The launch of Artemis I will be a symphony of high-powered machinery.

The countdown is well underway to launch NASA’s moon-bound Artemis I mission. NASA is preparing to launch SLS to orbit as soon as Monday, August 29. Once there, the Orion spacecraft hitching a ride atop SLS will detach to make its way towards the moon.

The mission will kickstart NASA’s Artemis launches, which will send humans back to the moon for the first time since 1972, and also pave the way for crewed missions to Mars.

A lot of hard work has gone towards the August 29 launch, culminating in the launch of SLS. The powerhouse rocket’s many components were built by many organizations, each serving a vital purpose. Here is a visualization of the major components of SLS. Below we provide more information on each separate part.

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Ending cellular dead zones in the U.S. is the ultimate goal.

Cellular service provider T-Mobile has teamed up with Elon Musk’s SpaceX to provide universal coverage using the constellation of Starlink satellites, a press release reveals.

Cellular services have gone through many iterations since their first roll-out. Most countries around the world are currently seeing a roll-out of the fifth generation (5G) of mobile connections that allows the bandwidth for high-speed gaming and streaming high-definition videos.

In a live event today, T‑Mobile and SpaceX announced Coverage Above and Beyond: a breakthrough new plan to bring cell phone connectivity nearly everywhere.

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It doesn’t involve magic but mirrors and lenses.

Energy can be trapped in the form of electric charge and heat, but until now, it has been impossible to absorb it in the form of light using traditional methods. Now a team of researchers from the Hebrew University of Jerusalem and Vienna University of Technology (TU Wien) claims to have developed the perfect setup to trap light, according to a press release published by EurekAlert.

Although this isn’t the first time scientists have come up with a way to absorb light energy, it is probably the only “light trap” method using which light energy can be absorbed even by very thin and weak mediums.

Whether in photosynthesis or in a photovoltaic system: if you want to use light efficiently, you have to absorb it as completely as possible. However, this is difficult if the absorption is to take place in a thin layer of material that normally lets a large part of the light pass through.

Now, research teams from TU Wien and from The Hebrew University of Jerusalem have found a surprising trick that allows a beam of light to be completely absorbed even in the thinnest of layers: They built a “light trap” around the thin layer using mirrors and lenses, in which the light beam is steered in a circle and then superimposed on itself – exactly in such a way that the beam of light blocks itself and can no longer leave the system. Thus, the light has no choice but to be absorbed by the thin layer – there is no other way out. This absorption-amplification method, which has now been presented in the scientific journal Science, is the result of a fruitful collaboration between the two teams: the approach was suggested by Prof. Ori Katz from The Hebrew University of Jerusalem and conceptualized with Prof. Stefan Rotter from TU Wien; the experiment was carried out in by the lab team in Jerusalem and the theoretical calculations came from the team in Vienna.

Thin layers are transparent to light

Continue reading “A perfect trap for light” | >

Researchers plan to use the James Webb Space Telescope for further observations.

An international team of researchers led by the University of Montreal discovered an exoplanet that could be covered entirely in water. The planet TOI-1452b is about 100 light years away from Earth, located in Draco Constellation. It’s larger in size and mass compared to Earth and is located in the “habitable zone,” which means the temperature is just right for the liquid water to exist. The team believes that it could be an “ocean planet,” a planet covered by a thick layer of water.

What’s so special about this ocean planet?

This isn’t the first time we’ve discovered an exoplanet or planets with water.

An international team of researchers led by Charles Cadieux, a Ph.D. student at the Université de Montréal and member of the Institute for Research on Exoplanets (iREx), has announced the discovery of TOI-1452 b, an exoplanet orbiting one of two small stars in a binary system located in the Draco constellation about 100 light-years from Earth.

The exoplanet is slightly greater in size and mass than Earth and is located at a distance from its star where its temperature would be neither too hot nor too cold for liquid water to exist on its surface. The astronomers believe it could be an “ocean planet,” a planet completely covered by a thick layer of water, similar to some of Jupiter’s and Saturn’s moons.

Continue reading “An extrasolar world covered in water?” | >

Two much-loved characters and some LEGO minifigures have been assigned to NASA’s Artemis I mission to the Moon. Shaun The Sheep and Snoopy are scheduled to lift-off during a two-hour window that opens at 8:33 a.m. EDT on Monday, August 29. If all goes to plan they’ll flyby the Moon and eventually return to Earth in the Orion spacecraft 42 days later.

This won’t be Snoopy’s first trip to space, having orbited Earth in a Space Shuttle in 1990. Snoopy will go to space this time as a visual indicator when a spacecraft has reached the weightlessness of microgravity. Interior cameras will capture the moment when Snoopy floats.

In the abscence of humans on NASA’s Artemis-1 mission around the Moon a cute selection of pop dolls, characters and “moonikins” will go to space.

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Two-dimensional materials, which consist of a single layer of atoms, exhibit unusual properties that could be harnessed for a wide range of quantum and microelectronics systems. But what makes them truly special are their flaws.

“That’s where their true magic lies,” said Alexander Weber-Bargioni at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab).

Defects down to the atomic level can influence the material’s macroscopic function and lead to novel quantum behaviors, and there are so many kinds of defects that researchers have barely begun to understand the possibilities. One of the biggest challenges in the field is systematically studying these defects at relevant scales, or with atomic resolution.

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