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An asteroid will pass close to Earth in November – Pledge Times

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An asteroid will pass close to Earth on November 2, one day before the US presidential elections. This was reported by the Center for the Study of Near-Earth Objects. The body will be at a minimum distance of 348,000 kilometers of the planet, informs CNN.

The celestial body, called 2018VP1, was identified in 2018 at the Palomar Observatory in California. It has a diameter of 0.002 kilometers. According to experts, the chances of it entering the atmosphere or colliding with the Earth are low: 0.41%, or one in 240.

The asteroid will pass at a speed greater than 34,000 kilometers per hour. The NASA estimates that the body weighs almost 16 tons. The British medium The Sun He says that although an unlikely fall of 2018VO1 on Earth can cause a lot of damage, the asteroid is 7,500 times smaller than the one believed to have killed the dinosaurs.

Many collisions

According to a published study by the magazine Science in 2019, in the last 290 million years, the Earth and the Moon they have experienced more than twice as many collisions with asteroids than there were in the previous 700 million years.

They usually hit our planet every million or few million years. Because of this, NASA’s list shows no major outstanding threats. The greatest known risk is an asteroid of 4,200 feet wide with a 99.988% probability that it does not reach the Earth when it flies very close to her 861 years from now.

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Jupiter and Saturn to make a triangle with the moon – Met Office forecast and when to see them – Gloucestershire Live

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The moon, Jupiter and Saturn are lining up to form a triangle of astronomical delight in the skies above Gloucestershire again on Saturday.

On Friday, the two planets were clearly seen near the Moon and if the skies are clear, you should be able to see them again tonight.

Dara Ó Briain, the comedian, presenter and keen stargazer was one of those to tweet their delight at the sight on Friday, saying: “The Moon, Jupiter and Saturn making a gorgeous triangle right now.”

Many tweeted their own pictures of the night show

According to the experts at Earth Sky, the triangle will be visible tonight and the best time to see it is from around 9pm.

It said it’s hard to miss the two gas giants as they are so near and can be identified by their closeness to the moon.

The Met Office, in its latest forecast, is suggesting a partly cloudy night between 8pm and 11pm with temperatures around 11C.

The moon today is in its waxing gibbous phase, which lasts until the full moon due on Thursday, October 1.

Good places to go stargazing in Gloucestershire include Windsor Drive in Tuffley, Gloucester; Leckhampton Hill in Cheltenham, Painswick Beacon and Cranham Common in Stroud; Edge, in between Gloucester and Stroud’ Minchinhampton Common, in between Stroud and Nailsworth and the top of Cleeve Hill in the Cotswolds.

If you’ve got any images of the three celestial bodies, share them with us at gloslivenews@reachplc.com

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The Moon is rusting, and researchers want to know why – Pattaya Mail

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The Moon as viewed by NASA’s Mariner 10 in 1973, well before research would find signs of rust on the airless surface. Credits: NASA/JPL/Northwestern University

While our Moon is airless, research indicates the presence of hematite, a form of rust that normally requires oxygen and water. That has scientists puzzled.

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Mars has long been known for its rust. Iron on its surface, combined with water and oxygen from the ancient past, give the Red Planet its hue. But scientists were recently surprised to find evidence that our airless Moon has rust on it as well.

A new paper in Science Advances reviews data from the Indian Space Research Organization’s Chandrayaan-1 orbiter, which discovered water ice and mapped out a variety of minerals while surveying the Moon’s surface in 2008. Lead author Shuai Li of the University of Hawaii has studied that water extensively in data from Chandrayaan-1’s Moon Mineralogy Mapper instrument, or M3, which was built by NASA’s Jet Propulsion Laboratory in Southern California. Water interacts with rock to produce a diversity of minerals, and M3 detected spectra – or light reflected off surfaces – that revealed the Moon’s poles had a very different composition than the rest of it.

Intrigued, Li homed in on these polar spectra. While the Moon’s surface is littered with iron-rich rocks, he nevertheless was surprised to find a close match with the spectral signature of hematite. The mineral is a form of iron oxide, or rust, produced when iron is exposed to oxygen and water. But the Moon isn’t supposed to have oxygen or liquid water, so how can it be rusting?

Metal Mystery

The mystery starts with the solar wind, a stream of charged particles that flows out from the Sun, bombarding Earth and the Moon with hydrogen. Hydrogen makes it harder for hematite to form. It’s what is known as a reducer, meaning it adds electrons to the materials it interacts with. That’s the opposite of what is needed to make hematite: For iron to rust, it requires an oxidizer, which removes electrons. And while the Earth has a magnetic field shielding it from this hydrogen, the Moon does not.

“It’s very puzzling,” Li said. “The Moon is a terrible environment for hematite to form in.” So he turned to JPL scientists Abigail Fraeman and Vivian Sun to help poke at M3’s data and confirm his discovery of hematite.

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“At first, I totally didn’t believe it. It shouldn’t exist based on the conditions present on the Moon,” Fraeman said. “But since we discovered water on the Moon, people have been speculating that there could be a greater variety of minerals than we realize if that water had reacted with rocks.”

After taking a close look, Fraeman and Sun became convinced M3’s data does indeed indicate the presence of hematite at the lunar poles. “In the end, the spectra were convincingly hematite-bearing, and there needed to be an explanation for why it’s on the Moon,” Sun said.

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Three Key Ingredients

Their paper offers a three-pronged model to explain how rust might form in such an environment. For starters, while the Moon lacks an atmosphere, it is in fact home to trace amounts of oxygen. The source of that oxygen: our planet. Earth’s magnetic field trails behind the planet like a windsock. In 2007, Japan’s Kaguya orbiter discovered that oxygen from Earth’s upper atmosphere can hitch a ride on this trailing magnetotail, as it’s officially known, traveling the 239,000 miles (385,00 kilometers) to the Moon.

That discovery fits with data from M3, which found more hematite on the Moon’s Earth-facing near side than on its far side. “This suggested that Earth’s oxygen could be driving the formation of hematite,” Li said. The Moon has been inching away from Earth for billions of years, so it’s also possible that more oxygen hopped across this rift when the two were closer in the ancient past.

Then there’s the matter of all that hydrogen being delivered by the solar wind. As a reducer, hydrogen should prevent oxidation from occurring. But Earth’s magnetotail has a mediating effect. Besides ferrying oxygen to the Moon from our home planet, it also blocks over 99% of the solar wind during certain periods of the Moon’s orbit (specifically, whenever it’s in the full Moon phase). That opens occasional windows during the lunar cycle when rust can form.

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The third piece of the puzzle is water. While most of the Moon is bone dry, water ice can be found in shadowed lunar craters on the Moon’s far side. But the hematite was detected far from that ice. The paper instead focuses on water molecules found in the lunar surface. Li proposes that fast-moving dust particles that regularly pelt the Moon could release these surface-borne water molecules, mixing them with iron in the lunar soil. Heat from these impacts could increase the oxidation rate; the dust particles themselves may also be carrying water molecules, implanting them into the surface so that they mix with iron. During just the right moments – namely, when the Moon is shielded from the solar wind and oxygen is present – a rust-inducing chemical reaction could occur.

More data is needed to determine exactly how the water is interacting with rock. That data could also help explain another mystery: why smaller quantities of hematite are also forming on the far side of the Moon, where the Earth’s oxygen shouldn’t be able to reach it.

More Science to Come

Fraeman said this model may also explain hematite found on other airless bodies like asteroids. “It could be that little bits of water and the impact of dust particles are allowing iron in these bodies to rust,” she said.

Li noted that it’s an exciting time for lunar science. Almost 50 years since the last Apollo landing, the Moon is a major destination again. NASA plans to send dozens of new instruments and technology experiments to study the Moon beginning next year, followed by human missions beginning in 2024 all as part of the Artemis program.

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JPL is also building a new version of M3 for an orbiter called Lunar Trailblazer. One of its instruments, the High-resolution Volatiles and Minerals Moon Mapper (HVM3), will be mapping water ice in permanently shadowed craters on the Moon, and may be able to reveal new details about hematite as well.

“I think these results indicate that there are more complex chemical processes happening in our solar system than have been previously recognized,” Sun said. “We can understand them better by sending future missions to the Moon to test these hypotheses.”

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This modular home workout setup fits in your closet, no more excuses to not exercise! – Yanko Design

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Few industries have changed due to the COVID-19 pandemic like the fitness industry has changed. Acclimating to the increasingly strange times, home gym designers have taken to the drawing boards by storm. Working out at home is possible, yes. Fun? Depends. Comfortable? Hard to say. What’s definite is that the team at G-Wall turned the everchanging state of 2020 into the well-knit, conceptual core of their sleek, modular home gym design. Recently, the designers behind the G-Wall Home Fitness System were presented with 2020’s K-Design Award.

Instead of answering the unanswerable (really, who can say what’s up next for 2020), the team behind G-Wall designed their home gym specifically so that it could be stored behind a closet or armoire cabinet’s door. That way the time that you would have spent making room for your home fitness system, instead is spent actually putting it to use. G-Wall’s Home Fitness System has several standout features: variable modules, user-adjustability, and compatibility, to name a few. Each user decides on which modules they want to comprise the larger system. This means that despite the amount of space in your home, G-Wall’s design makes it possible to incorporate a home gym anywhere. The different modules that users can decide on range from cardiovascular equipment, to free weights and even heavy training. The gear that comes with each module is stored in cabinets or racks that easily hang behind doors or however the user deems appropriate for their personal space.

Once quarantine started, many of us twiddled our thumbs while figuring out how to stay healthy and active within the confines of our respective homes. Fitness and health remained a top priority for many global citizens. It was never a question of compromise or adjustment when it came to working out during quarantine. Rather, designers and gym-goers took to the drawing boards to concoct their own solutions. That’s all to say that while the fitness industry has indeed changed with 2020’s unpredictable timeline, some of the most innovative new designs have been devised. Such deliberate and convenient designs like G-Wall prove that as unanswerable as some questions may be, as uncertain as the time may feel, design’s practical and adaptive nature is one thing on which we can always depend.

Designers: Tan Xuwen, Zhang Hu, Huang Shumei, Tong Bomin, Gao Lin x Guangdong Piano Customized Furniture Co., Ltd.









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