After lunch yesterday, we went to the #HistoryOfScienceMuseum in #Oxford. It’s not very big but contains some really fascinating exhibits. It is right next to the #SheldonianTheatre and well worth a visit.
It’s now thought that they could illuminate fundamental questions in #physics, settle questions about #Einstein’s theories, & even help explain the #universe.
…In recent yrs, the amt of data that scientists have discovered about black holes has grown exponentially.
In Jan, #astronomers announced that the #JamesWebbSpaceTelescope had observed the oldest black hole yet—one present when the universe was a mere 400M yrs old.…Recently, 2 #SupermassiveBlackHoles, w/a combined mass of 28B suns, were measured & shown to have been rotating tightly around each other, but not colliding, for the past 3B years. And those are just the examples that are easiest for the public to make some sense of.
It’s come to this. W/ #Earth at its hottest point in recorded history, & #humans doing far from enough to stop its overheating, a small but growing number of #astronomers & #physicists are proposing a potential fix that could have leaped from the pages of science fiction: The equivalent of a giant beach umbrella, floating in outer #space.
#Astronomers have found a new and unknown object in the #MilkyWay that is heavier than the heaviest #neutronstars known and yet simultaneously lighter than the lightest #blackholes known.
#Astronomers have studied what triggers #stars to form in the #universe's biggest #galaxies. Findings suggest that conditions for stellar conception in these exceptionally massive galaxies have not changed over the last ten billion years.
#Astronomers have captured the first close-up images of a #massivestar known as #RWCephei that recently experienced a strange fading event. The images are providing new clues about what's happening around the massive star approximately 16,000 light years from Earth.
What #astronomers learned from a near-Earth asteroid they never saw coming
No one spotted space rock 2023 NT1 until two days after it missed us.
By Briley Lewis | Published Nov 1, 2023
"In the summer, astronomers spotted an airplane-sized asteroid—large enough to potentially destroy a city—on an almost-collision course with Earth. But no one saw the space rock until two days after it had zoomed past our planet.
"This asteroid, named 2023 NT1, passed by us at only one-fourth of the distance from Earth to the moon. That’s far too close for comfort. Astronomers weren’t going to let this incident go without a post-mortem. They’ve recently dissected what went wrong and how we can better prepare to defend our planet from future impacts, in a new paper recently posted to the preprint server arXiv.
"We know from history that asteroids can cause world-shattering events and extinctions—just look at what happened to the dinosaurs. The study team estimated that, if NT1 hit Earth, it could have the energy of anywhere from 4 to 80 intercontinental ballistic missiles. '2023 NT1 would have been much worse than the Chelyabinsk airburst,' says University of California, Santa Barbara astronomer Philip Lubin, a co-author on the new work, referring to the meteor that exploded over a Russian city in 2013. As devastating as that would be, it’s 'not an existential threat like the 10-kilometer hit that killed our previous tenants,' he adds.
"The asteroid-monitoring system ATLAS, the 'Asteroid Terrestrial-impact Last Alert System”—four telescopes in Hawaii, Chile, and South Africa—discovered NT1 after the rock flew by. ATLAS’s entire purpose is to scour the skies for space rocks that might threaten Earth. So with this set of eyes on the sky, how did we miss it?
"It turns out that Earth has what Brin Bailey, UC Santa Barbara astronomer and lead author on the paper, calls a “blindspot.” Any asteroid coming from the direction of the sun gets lost in the glare of our nearest star.” There’s another way for asteroids to sneak up on us, too: the smaller the asteroid, the harder it is for our telescopes to spot them, even when the rocks come from parts in the sky away from the sun.
“'Currently, there is no planetary defense system which can mitigate short-warning threats,' Bailey says. 'While NT1 has no chance of intercepting Earth in the future, it serves as a reminder that we do not have complete situational awareness of all potential threats in the solar system,” they add. That leads to Lesson #1: We simply need better detection methods for planetary defense."
#Harvard 📆 October 11, 2022 : Some spaghettified material occasionally gets flung out back into #space 🌌. #Astronomers liken it to #BlackHoles ⚫ being messy eaters — not everything they try to consume makes it into their mouths.
But the emission, known as an outflow, normally develops quickly after a #TDE occurs — not years later.