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Space Exploration

Boeing’s Starliner has successfully launched astronauts into space

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Boeing’s Starliner Calypso took off on June 5 at 10:52 a.m. ET with NASA astronauts Barry Wilmore and Sunita Williams on board to go to the International Space Station (ISS). This was the third and final test of the commercial vehicle. It was also the first test with people on board to show that Starliner is a safe way to get astronauts to and from the space station.

It took a long time to get here. Boeing had planned for its first crewed test to happen in 2017, but it kept getting pushed back. Last week’s delay pushed back this crewed test from August of last year to May 2024. This had to be done to fix problems with the parachute system, the wiring harnesses, and some other, less important problems.

Then, two hours before the launch on May 6, the plan was canceled. A helium leak in the service module kept making it take longer than planned. On June 1, Saturday, there was going to be another try. A bad power supply caused a computer to report a loss of redundancy just 3 minutes and 50 seconds before launch, which is when the scrub was done.

But now Starliner is in orbit. The powerful Atlas V rocket placed it there.

Williams and Wilmore are going to be in space for about a week. Starliner will be tested as a “safe haven” on the ISS. This is a place inside the space station that is safe and could be used in an emergency. This will come in handy when the capsule needs to stay in place for up to seven months.

Starliner is supposed to land back in the American Southwest. As it falls, a parachute will open and slow the capsule down to 6.4 kilometers per hour (4 miles per hour). It will be easier to land because six airbags will go off.

Starliner will be used to bring people and things to the ISS, just like SpaceX’s Crew Dragon capsule. It can be used up to 10 times. 2020 was the first time SpaceX sent a crew into space.

As Editor here at GeekReply, I'm a big fan of all things Geeky. Most of my contributions to the site are technology related, but I'm also a big fan of video games. My genres of choice include RPGs, MMOs, Grand Strategy, and Simulation. If I'm not chasing after the latest gear on my MMO of choice, I'm here at GeekReply reporting on the latest in Geek culture.

Physics

Light is the fastest thing that can “move” across a surface

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Einstein’s theory of special relativity says that it is impossible to move faster than light in a vacuum.

Things that don’t have mass have to move at the speed of light. But things that do have mass can’t get close to 299,792,458 meters per second (983,571,056 feet per second) without using up all of their energy. Physicists and sci-fi authors have tried to get around this by using concepts like the warp drive. But it’s likely that these will be illegal because of those pesky physics laws. Traveling faster than light can cause paradoxes that break the rules of the universe.

You are not in a dark room, though, because there is something in this room right now that can slow down or stop light. It is possible for shadows to go faster than light, and they can even smash through it.

You might ask things like, “What the hell are you talking about?” Imagine that you have a flashlight that is strong enough to light up some of the moon. If you quickly move your finger across the front of the flashlight, the shadow it casts can move across the moon’s surface at speeds much faster than light.

If you wave a laser across the night sky, you can get the same kind of effect. Think of a huge dome that is, say, 100 light-years across and surrounds you. When this laser hits that dome 100 years from now, the points will fly across it at speeds much faster than light.

But these two examples are just tricks.

Astrophysicist Michio Kaku told Big Think, “There is no message, no net information, and no physical object that actually moves along this image. There is only the image of the beam as it races across the night sky.”

No, the laser point isn’t really moving. What you’re seeing are photons hitting the dome and then different photons hitting a different part of the dome 100 years later after you moved your laser.

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The universe and physics stayed the same because nothing really moved faster than light, and no information was sent.

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Space Exploration

Someone in high school builds a model rocket that can land vertically, like a Falcon 9 Booster

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After three years of hard work, a high school student has finished a big project: making a model rocket that lands vertically.

It’s really rocket science to say that landing a rocket vertically is not easy. And SpaceX will tell you that they have blown up many a rocket stage while trying to land rocket boosters. But sometimes they do land before they blow up.

A student named Aryan Kapoor started building his own vertical lander in August 2021. At the end of May 2024, he finally hit the ground.

In a video for his YouTube channel JRD Propulsion, Kapoor said, “This rocket works differently than other model rockets of its kind.” “My rockets don’t have fins to keep them stable; instead, they use thrust vector control.” Thrust vector control lets the rocket’s engine move like a gimbal, giving the pilot control over the rocket’s path in space.

Even more impressive is the fact that software controls the rocket’s flight on its own.

“To guide the rocket, a flight computer makes all inflight decisions, such as steering the rocket and deciding when to ignite the landing motor.”

The onboard barometer gave the wrong reading of the rocket’s altitude during its first test flight in 2023. Kapoor wrote on his JRD Propulsion website, “The rocket did well in all other ways and collected useful data.” “Future flights will use only the accelerometer to measure altitude, providing much higher accuracy and precision.”

On his fifth attempt, Kapoor has landed successfully once more.

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Space Exploration

The Moon’s first cave has been found – Is it ready to be lived in?

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Atunnel has been found for the first time under the moon’s surface, right where people first set foot on the Sea of Tranquility. Although this isn’t the most likely place to build a colony, there are probably more caves in the area, which makes it more likely that people will move there in the future.

Even though the cost of launch is going down, it will still be very expensive to send heavy things to the moon for a while. Being able to get as much as possible on site is important for even a short-term base, let alone something permanent. A lot of attention has been paid to finding water sources lately, but shelter is also very important.

If future astronauts want to stay on the Moon for a long time, they will need to be well protected from space radiation and the huge changes in temperature that happen there. Also, we want something that is strong enough to survive a small asteroid strike, which happens a lot when there is no atmosphere to protect it. It would be much better if this was found naturally instead of having to build or dig our own.

In a statement, Professor Lorenzo Bruzzone stated that the Miniature Radio-Frequency (Mini-RF) instrument discovered a pit in Mare Tranquilitatis in 2010 as part of the ongoing Luna Reconnaissance Orbiter (LRO) NASA mission. After a while, we looked at these data once more using sophisticated signal processing techniques and discovered radar reflections from the pit area that are only consistent with an underground cave conduit. This finding is the first direct proof of a lava tube that can be reached below the moon’s surface.

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There have been more than 200 observations of pits like the one Bruzzone and his colleagues looked at. It is called the Mare Tranquillitatis pit. Some or all of these look like they were made when the ceiling of a lava tube caved in. But the fact that there is a pit like this doesn’t mean there is a cave below that is big enough to be useful.

That’s why the Mare Tranquillitatis pit looked like a good place to begin. It’s about 100 meters (328 feet) across, and the walls are so steep that they might hang over. For that reason, it’s one of the few big enough for the LRO’s radar to be able to pick up on internal features.

Orbital synthetic aperture radar images taken from the side by the LRO show a bright spot on the west side of the pit. Based on simulations, it looks like a pipe that is 30 to 80 meters (98 to 262 feet) long and 45 to 148 meters wide. It might not be big enough for a city, but it would be a good place for a lunar village. It is thought that the cave’s floor is flat enough to be useful. There are more than 100 meters (328 feet) between the cave entrance and the surface, but since the moon has low gravity, that might not be a big problem.

The authors made two models of the pit and cave that were based on different assumptions about their sizes. The main difference was the height of the rock pile that formed when the pit’s ceiling collapsed, which affected how steep the floor was.

gif of entering a lava tube on the Moon

The Sea of Tranquility is like New York: it’s a great place to visit, but we wouldn’t want to live there. That’s because it doesn’t have ice, which is another important thing about living on the moon. There is probably frozen water at the poles of the moon, especially at the south pole, which is what started the race to land there.

Mare Tranquilitatis is a flat equatorial plane. Any ice that was close to the surface of this plane would have melted in the hot lunar days. Being about 7 degrees north of where Armstrong took “one small step” won’t make up for not having anything to drink.

However, the work makes it more likely that these kinds of lava tubes could exist at the poles. What’s more, it may be more important that we can find them in space with a little better detail. “People have thought about these caves for more than 50 years, but this is the first time we have proven they exist,” Bruzzone said.

The study was written up in Nature Astronomy.

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