How many people are in space right now? Check this website on a normal week and you’ll probably find six or seven astronauts and cosmonauts orbiting Earth in the International Space Station (ISS).
However, at the moment it’s an incredible 11 people.
After the arrival of SpaceX’s “Endeavour” Crew Dragon spacecraft on April 23, 2021, the population of the orbiting laboratory has mushroomed.
It’s the first time that two of SpaceX’s Crew Dragon capsules have been simultaneously anchored to the ISS – “Resilience,” which arrived on 17 November, 2020 with the four-strong SpaceX Crew-1 mission, and now “Endeavour.”
On April 9, 2021 a Soyuz spacecraft arrived at the ISS carrying NASA astronaut Mark Vande Hei and Roscosmos cosmonauts Oleg Novitsky and Pyotr Dubrov.
It’s led to some hasty arrangements being made to accommodate this surfeit of astronauts.
Space.com reports that since there are nine astronauts in the U.S.-run part of the ISS two of the astronauts are having to sleep in their Crew Dragon capsules while three are using temporary beds constructed in the gym, the Columbus module and even in the airlock.
The bigger crew on the ISS is partly a result of there being enough room in SpaceX’s Dragon capsules for four astronauts.
The new arrivals—NASA astronauts Shane Kimbrough and Megan McArthur, along with JAXA (Japan Aerospace Exploration Agency) astronaut Akihiko Hoshide and ESA (European Space Agency) astronaut Thomas Pesquet—have joined the Expedition 65 crew of Shannon Walker, Michael Hopkins, Victor Glover, and Mark Vande Hei of NASA, as well as Soichi Noguchi of JAXA and Roscosmos cosmonauts Oleg Novitskiy and Pyotr Dubrov.
However, the crowded situation will last for only a few days. On Wednesday, April 28 four of those astronauts will depart the ISS in Resilience after over 160 days in space.
NASA astronauts Hopkins, Glover, and Walker, and Noguchi of JAXA, are scheduled to splashdown at 12:40 p.m. EDT on Wednesday, April 28.
Walker, currently Commander of the ISS, will pass that command to JAXA astronaut and Crew-2 member Akihiko Hoshide during a change of command and farewell event.
And then there were seven …
Wishing you clear skies and wide eyes.
How to spot the International Space Station across the US this month | Curated – Daily Hive
Keep your eyes on the sky over the next several weeks, because if you look closely, you might catch a glimpse of the International Space Station.
According to Nasa and its Spot the Station tool, the station will be visible from now through early October, offering stargazers something new to search for as it travels through the night sky.
The space station looks like an “airplane or a very bright star.” It moves faster than the typical airplane and always travels in a straight line. It also doesn’t have any flashing lights.
Astronauts aboard the football-field-sized space station are conducting research in a microgravity lab that should benefit people on Earth.
Here’s when the space station will be visible near Seattle and Portland, but NASA also has information for smaller communities on its website.
Viewing opportunities with higher maximum heights are easier to spot because the space station won’t be blocked by surrounding trees or buildings.
Astronomers Discover an Intermediate-Mass Black Hole as it Destroys a Star – Universe Today
Supermassive black holes (SMBH) reside in the center of galaxies like the Milky Way. They are mind-bogglingly massive, ranging from 1 million to 10 billion solar masses. Their smaller brethren, intermediate-mass black holes (IMBH), ranging between 100 and 100,000 solar masses, are harder to find.
Astronomers have spotted an intermediate-mass black hole destroying a star that got too close. They’ve learned a lot from their observations and hope to find even more of these black holes. Observing more of them may lead to understanding how SMBHs got so massive.
When a star gets too close to a powerful black hole, a tidal disruption event (TDE) occurs. The star is torn apart and its constituent matter is drawn to the black hole, where it gets caught in the hole’s accretion disk. The event releases an enormous amount of energy, outshining all the stars in the galaxy for months, even years.
That’s what happened with TDE 3XMM J215022.4-055108, which is more readily known as TDE J2150. Astronomers were only able to spot the elusive IMBH because of the burst of x-rays emitted by the hot gas from the star as it was torn apart. J2150 is about 740 million light-years from Earth in the direction of the Aquarius constellation. Now a team of researchers has used observations of the distant J2150 and existing scientific models to learn more about the IMBH.
They’ve published their results in a paper titled “Mass, Spin, and Ultralight Boson Constraints from the Intermediate Mass Black Hole in the Tidal Disruption Event 3XMM J215022.4?055108.” The lead author is Sixiang Wen from the University of Arizona. The paper is published in The Astrophysical Journal.
IMBHs are elusive and difficult to study. Astronomers have found several of them in the Milky Way and in nearby galaxies. Mostly they’ve been spotted because of their low-luminosity active galactic nuclei. In 2019 the LIGO and Virgo gravitational wave observatories spotted a gravitational wave from the merger of two IMBHs. As it stands now, there’s a catalogue of only 305 IMBH candidates, even though scientists think they could be common in galactic centers.
One of the problems in seeing them is their low mass itself. While SMBHs can be found by observing how their mass affects the stellar dynamics of nearby stars, IMBHs are typically too small to do the same. Their gravity isn’t powerful enough to change the orbits of nearby stars.
“The fact that we were able to catch this black hole while it was devouring a star offers a remarkable opportunity to observe what otherwise would be invisible,” said Ann Zabludoff, UArizona professor of astronomy and co-author on the paper. “Not only that, by analyzing the flare we were able to better understand this elusive category of black holes, which may well account for the majority of black holes in the centers of galaxies.”
It was the eruption of x-rays that made the event visible. The team compared the observed x-rays with models and was able to confirm the presence of an IMBH. “The X-ray emissions from the inner disk formed by the debris of the dead star made it possible for us to infer the mass and spin of this black hole and classify it as an intermediate black hole,” lead author Wen said.
This is the first time that observations have been detailed enough to be able to use a TDE flare to confirm the presence of an IMBH. It’s a big deal, because though we know that SMBHs lie in the center of galaxies like the Milky Way and larger, our understanding of smaller galaxies and their IMBHs is much more limited. They’re just really hard to see.
“We still know very little about the existence of black holes in the centers of galaxies smaller than the Milky Way,” said co-author Peter Jonker of Radboud University and SRON Netherlands Institute for Space Research, both in the Netherlands. “Due to observational limitations, it is challenging to discover central black holes much smaller than 1 million solar masses.”
The mystery surrounding IMBHs feeds into the mystery surrounding SMBHs. We can see SMBHs at the heart of large galaxies, but we don’t know exactly how they got that massive. Did they go through mergers? Maybe. Through the accretion of matter? Maybe. Astrophysicists mostly agree that both mechanisms may play a role.
Another question surrounds SMBH “seeds.” The seeds could be IMBHs of tens or hundreds of solar masses. The IMBHs themselves could’ve grown from stellar-mass black holes that grew into IMBHs through the accretion of matter. Another possibility is that long before there were actual stars, there were large gas clouds that collapsed into quasi-stars, that then collapsed into black holes. These strange entities would collapse directly from quasi-star to black hole without ever becoming a star, and are known as direct collapse black holes. But these are all hypotheses and models. Astrophysicists need more actual observations, like in the case of TDE J2150, to confirm or rule anything out.
“Therefore, if we get a better handle of how many bona fide intermediate black holes are out there, it can help determine which theories of supermassive black hole formation are correct,” Jonker said.
The team of researchers was also able to measure the black hole’s spin, which has implications for black hole growth, and maybe for particle physics, too. The black hole is spinning quickly, but it’s not spinning as fast as possible. It begs the question, how did the IMBH attain a speed in this range? The spin opens up some possibilities and eliminates others.
“It’s possible that the black hole formed that way and hasn’t changed much since, or that two intermediate-mass black holes merged recently to form this one,” Zabludoff said. “We do know that the spin we measured excludes scenarios where the black hole grows over a long time from steadily eating gas or from many quick gas snacks that arrive from random directions.”
The spin rate may shed some light on potential particle candidates for dark matter, too. One of the hypotheses says that dark matter is made up of particles never seen in a laboratory, called ultralight bosons. These exotic particles, if they exist, would have less than one-billionth the mass of an electron. The IMBHs spin rate may preclude the existence of these candidate particles.
“If those particles exist and have masses in a certain range, they will prevent an intermediate-mass black hole from having a fast spin,” co-author Nicholas Stone said. “Yet J2150’s black hole is spinning fast. So, our spin measurement rules out a broad class of ultralight boson theories, showcasing the value of black holes as extraterrestrial laboratories for particle physics.”
This discovery will build toward a better understanding of dwarf galaxies and their black holes, too. But for that to happen, astrophysicists need to observe more of these IMBH tidal disruption events.
“If it turns out that most dwarf galaxies contain intermediate-mass black holes, then they will dominate the rate of stellar tidal disruption,” Stone said. “By fitting the X-ray emission from these flares to theoretical models, we can conduct a census of the intermediate-mass black hole population in the universe,” Wen added.
As is often the case in astronomy, astrophysics, and cosmology, future telescopes and observatories should advance our knowledge considerably. In this, the Vera C. Rubin Observatory could play a role. The Rubin could discover thousands of TDEs each year.
Then we may finally be able to piece together the story of not only IMBHs but also SMBHs.
NASA splits human spaceflight unit in two, reflecting new orbital economy – CTV News
NASA is splitting its human spaceflight department into two separate bodies – one centred on big, future-oriented missions to the moon and Mars, the other on the International Space Station and other operations closer to Earth.
The reorganization, announced by NASA chief Bill Nelson on Tuesday, reflects an evolving relationship between private companies, such as SpaceX, that have increasingly commercialized rocket travel and the federal agency that had exercised a U.S. monopoly over spaceflight for decades.
Nelson said the shake-up was also spurred by a recent proliferation of flights and commercial investment in low-Earth orbit even as NASA steps up its development of deep-space aspirations.
“Today is more than organizational change,” Nelson said at a press briefing. “It’s setting the stage for the next 20 years, it’s defining NASA’s future in a growing space economy.”
The move breaks up NASA’s Human Exploration and Operations Mission Directorate, currently headed by Kathy Leuders, into two separate branches.
Leuders will keep her associate administrator title as head of the new Exploration Systems Development Mission Directorate, focusing on NASA’s most ambitious, long-term programs, such as plans to return astronauts to the moon under project Artemis, and eventual human exploration of Mars.
A retired deputy associate administrator, James Free, who played key roles in NASA’s space station and commercial crew and cargo programs, will return to the agency as head of the new Space Operations Mission Directorate.
His branch will primarily oversee more routine launch and spaceflight activities, including missions involving the space station and privatization of low-Earth orbit, as well as sustaining lunar operations once those have been established.
“This approach with two areas focused on human spaceflight allows one mission directorate to operate in space while the other builds future space systems,” NASA said in a press release announcing the move.
The announcement came less than a week after SpaceX, which had already flown numerous astronaut missions and cargo payloads to the space station for NASA, launched the first all-civilian crew ever to reach orbit and returned them safely to Earth.
(Reporting by Steve Gorman in Los Angeles; Editing by Leslie Adler)
B.C. reports 759 new COVID-19 cases and 10 deaths, 1 death in Island Health – CHEK
BlackBerry beats quarterly revenue expectations on cybersecurity boost
Police in Quebec seek man for punching nurse over wife’s COVID-19 shot
Silver investment demand jumped 12% in 2019
Europe kicks off vaccination programs | All media content | DW | 27.12.2020 – Deutsche Welle
Iran anticipates renewed protests amid social media shutdown
Business20 hours ago
Three Ways to Use Social Media to Impress Employers and Recruiters
News13 hours ago
A MADE IN CANADA, WORLD FIRST SOLUTION, FOR APPLYING ALCOHOL WARNING LABELS
News13 hours ago
Alberta province replaces health minister
Health3 hours ago
New Zealand’s Ardern says lockdowns can end with high vaccine uptake
Business3 hours ago
Police in Quebec seek man for punching nurse over wife’s COVID-19 shot
Business12 hours ago
Evolution of Canada as a Modern Payments Leader
News3 hours ago
Canada fossil fuel workers want victorious Trudeau to keep retraining pledge
Sports20 hours ago
Blue Jays-Rays data card scandal a new case study for sportsmanship in MLB – Sportsnet.ca