A Falcon 9 loaded with Starlink satellites prepares for launch.
SpaceX
After successfully sending another batch of its Starlink broadband satellites into orbit Monday night from Cape Canaveral Space Force Station, SpaceX appears to have missed the landing of its Falcon 9 first stage booster for the first time in a year.
On the livestream of the mission, a flash is seen just to the side of the droneship at the moment the booster should be landing, although no rocket ever enters the frame.
SpaceX has not yet confirmed the fate of the Falcon 9, but it seems very likely it crashed in the ocean. In the process, it appears to have spared three seagulls that were hanging out on the landing pad and may never understand how close they came to being barbecued.
The Falcon 9 itself had a pretty good life, completing six launches successfully, but only five landings in its career.
The apparent hard water landing comes almost exactly a year after the same thing happened at the end of an earlier Starlink mission on Feb. 17, 2020. Every landing attempt in between has been successful (for Falcon 9, that is. Definitely not counting Starship testing in Texas).
Next up, SpaceX has only a little more than 24 hours before its next Starlink flight. The 20th batch of satellites is set to blast off from adjacent Kennedy Space Center on Tuesday at 9:55 p.m. PT (12:55 a.m. Wednesday ET).
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The company had planned to launch two batches of Starlinks from Florida within hours of each other earlier this month, but one of this missions was postponed. (That launch is now scheduled for Tuesday night.)
The only sign something went wrong? A bright glow and some spooked gulls…
SpaceX
So far, over 1,000 of the small satellites have been sent to space, but it’s not clear how many of those are currently operational. Regardless, it would seem that if SpaceX can pull off it least two Starlink launches per month, it should be able to hit its target.
Only two Starlink missions have been flown thus far in 2021, but the company can quickly get up to speed if it nails both missions this week.
Of course, these launches are known to slip.
Whenever the next launch is imminent, we will embed the livestream here. It typically goes live about ten minutes before launch.
Follow CNET’s 2021 Space Calendar to stay up to date with all the latest space news this year. You can even add it to your own Google Calendar.
The glowing fireball lit up the sky early Monday morning (photo courtesy of Graham Knutson)
By Canadian Press
Comet Fragment
Feb 25, 2021 4:02 PM
The mystery of what caused a giant fireball that lit up the sky over much of Alberta earlier this week has been solved.
Scientists at the University of Alberta say calculations using two observation sites show it was a small piece of a comet that burned up in the atmosphere.
Hundreds of people from Calgary to Fort McMurray and Medicine Hat to Grande Prairie reported seeing the bright flash in the sky at about 6:30 a.m on Monday.
Patrick Hill of the Department of Earth and Atmospheric Sciences says the chunk burned up immediately after giving what he describes as a “spectacular flash.”
This photo released on Feb. 24 shows images from NASA’s Perseverance rover of its new home in Jezero Crater after touching down on Mars Feb. 18. Photo by HANDOUT /NASA/JPL-CALTECH/AFP via Getty I
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The NASA rover mission scouring Mars for ancient life has a connection to Sudbury.
Raymond Francis, who graduated from Western University in 2014 with a PhD in computer engineering and planetary science, is an engineer at NASA’s Jet Propulsion Laboratory in Pasadena, Calif.
Francis, whose aspirations include becoming a Canadian Space Agency astronaut — maybe even one of the first on the red planet — is part of the team helping guide the rover Perseverance through Mars’s Jezero crater, which scientists say was a lake 3.5 billion years ago.
It is the first time a Mars rover will be collecting rock and soil, which will be stored until they can be returned to Earth.
“If ever there was life on Mars, this is the time it may well have arisen,” Francis said. “We would be elated if we found signs of ancient life on Mars. No one is expecting current life, but we explicitly have a goal of finding signs of life.”
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Jezero, which means lake in Slavic languages, is named after a settlement.
“The lake was there for a long time, because the river flowing into had enough time to build up a delta, the kind you find at the mouth of the Mississippi or the Nile,” Francis said.
Sudbury native Raymond Francis, who graduated from Western in 2014 with a PhD in computer engineering and planetary science, and will be helping guide the rover Perseverance during its time on Mars.SunMedia
“Deltas are also a good place to preserve signs of life, because they are constantly setting down new sediment. If there are living things in that lake, they can get buried in the sediment and preserved.”
But even if they don’t find life, the research into Mars’s environment, history and evolution would be incredibly valuable, he said.
“Any lake like this on Earth 3.5 billion years ago was probably full of microbes,” Francis said. “If this one on Mars was not, it tells us something about the difference between these two planets, regardless of life.”
While noisy and chaotic, Perseverance’s landing last Thursday — NASA shared video online — “worked out almost perfectly,” he said.
“People have put a lot of their life into this for the last decade and a lot of things had to go right for that landing to succeed …,” Francis said. “(At) each critical juncture, you could see people getting more hopeful.”
Now that Perseverance has landed, Francis’s work begins.
As science engineering liaison, he helps co-ordinate discussions of what the science team wants to do.
“They might be what observations to make, which experiments to run, where to drive the rover to make our next studies,” he said.
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The rover is “greatly improved” from its predecessor, Curiosity.
“It looks a lot like Curiosity rover, but it is not,” Francis said. “We have greatly improved capabilities and our autonomous driving system is much improved. We’ll be able to drive farther and faster.”
Francis also be part of operating its artificial intelligence system.
“I’m am going to have a role in deploying that software and making sure it gives us good science data,” he said.
Francis also runs a “supercam,” or laser geochemical spectrometer, he said.
Their work is being done on “Mars time,” where a day last 24 hours and 38 minutes and scientists will give up regular sleep cycles to use every second.
“The rover works best during the day on Mars, so we can spend less energy on heating because the sun is up and we can easily take pictures,” he said.
Rock and other samples collected by the rover will be retrieved, he said, likely in two missions in the early 2030s: one to land, pick up samples and lift them into orbit; another to carry them from Mars to Earth.
In earlier interviews, Francis said Sudbury and Science North helped shape his interest in science and space.
Francis told Tilbury District High School students in southern Ontario a few years ago about an encounter that changed his life.
“Probably the first time that happened to me was when I was … [in] first grade,” Francis said. “I grew up in Sudbury and there was a place there called Science North, a public science centre. And they had Bob Thirsk – a Canadian astronaut … and he came by with an American astronaut who had already flown. And they gave this presentation about ‘look, this is what it’s like to operate a space shuttle.’”
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“I still have the little poster he signed,” Francis added.
Thirsk would later become the first Canadian to fly at length in the International Space Station, in 2009.
Earlier this year, he told Quirks & Quarks, a science show on CBC Radio, that living in Sudbury in some ways helped prepare him for this Mars mission.
“You’re from Sudbury, which is a big mining town,” Quirks & Quarks asked. “And after building a career in robotics and space science, you’ve been led back to rocks. They’re just rocks on another world.”
“That’s right,” Francis replied. “And honestly, during my PhD studies in how to teach computers to look at rocks, I spent some time up in Sudbury looking at those. The mines in Sudbury are the results of an ancient impact crater that’s not quite as old as Jezero, but the impact geology is a very good analogue for the types of large scale impact sites we find in craters on Mars.
“So going home to Sudbury was actually a very useful thing for getting prepared for these kinds of studies on Mars.
The fireball that lit up the sky across the Prairies on Monday morning was a small piece of a comet that burned up in the atmosphere, researchers at the University of Alberta say.
“Using two observation sites, we were able to calculate both its trajectory and velocity, which tell us about the origin of the meteor and reveal that it was a piece of a comet,” Patrick Hill, post-doctoral fellow in the Department of Earth and Atmospheric Sciences, said in a news release Thursday.
“This chunk was largely made of dust and ice, burning up immediately without leaving anything to find on the ground — but instead giving us a spectacular flash.”
The flash, captured by dozens of doorbell cameras and dashcams, occurred at 6:23 a.m. local time as the debris streaked through the sky to a final point on its trajectory 120 kilometres north of Edmonton, the researchers said.
The flash was visible throughout Alberta and parts of Saskatchewan due to the unusually high altitude of the fireball, they said.
WATCH | Fireball flashes across the Prairie sky:
A fireball buzzed over the Prairies on Monday, temporarily piercing the dark of the early morning sky with a flash of blinding blue light. 0:48
The chunk, likely only tens of centimetres across in size, was travelling at more than 220,000 km/h when it entered the atmosphere, they said.
“This incredible speed and the orbit of the fireball tell us that the object came at us from way out at the edge of the solar system — telling us it was a comet, rather than a relatively slower rock coming from the asteroid belt,” Chris Herd, curator of the University of Alberta Meteorite Collection and science professor, said in the release.
“Comets are made up of dust and ice and are weaker than rocky objects, and hitting our atmosphere would have been like hitting a brick wall for something travelling at this speed,” Herd said.
‘This is an incredible mystery to have solved’
While rocky objects usually burn up between 15 to 20 kilometres above the ground, Monday’s fireball occurred at an altitude of 46 kilometres allowing the flash to be seen across a wide area.
“All meteoroids — objects that become meteors once they enter Earth’s atmosphere — enter at the same altitude and then start to burn up with friction,” Hill said.
“Sturdier, rocky meteoroids can sometimes survive to make it to the ground, but because this was going so fast and was made of weaker material, it flashed out much higher in the atmosphere and was visible from much farther away.”
The research team calculated the trajectory of the fireball by using dark-sky images captured at the Hesje Observatory at the Augustana Miquelon Lake Research Station and at Lakeland College’s observation station in Vermilion, Alta., the release said.
“This is an incredible mystery to have solved,” Herd said. “We’re thrilled that we caught it on two of our cameras, which could give everyone who saw this amazing fireball a solution.”
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