The Event Horizon Telescope has shown us the first picture of the light shadow of the supeemassive black hole in the center of the Milky Way, Sagittarius A*!

twitter.com/ESO/status/1524738

It's maybe a bit surprising that they could publish the black hole in another galaxy, M87*, three years before that in our own Milky Way, but that is because even though M87 is much further away, its central black hole is absolutely massive - more than 1000 times heavier than the one in the Milky Way.

twitter.com/ESO/status/1524740

The event horizon (also called Schwarzild radius) of M87* ("M-eighty-seven-star"), which is a good deal smaller than the light shadow which we can see in the EHT images, is 2.5 times the orbit of Pluto. Which gives it an average mass density of 2-3% of the air we breathe on Earth!

Such gargantuan black holes fly in the face of all we learned about black holes as kids. Remember "spaghettification" - that you'd be torn apart to atoms by the tidal forces as you approached a Black Hole? Well, at the event horizon of M87*, the tidal forces are weaker than those of the Sun in Earth's orbit!

Follow

If you are confused about the difference between Black Hole light shadows and event horizons, and what these images even show (I sure was!), the YouTube channel Veritasium has a great explainer here: youtube.com/watch?v=zUyH3XhpLT

· · Web · 2 · 3 · 11

If you are a bit confused about Black Holes in general, the brilliant and mischievously misnamed "Bad Astronomer", Phil Plait, has a great entry-level explainer about Black Holes, including the concept of "spaghettification", here:

youtube.com/watch?v=qZWPBKULkd

@thriveth I am still confused, but it's a great video, thanks for sharing!

Sign in to participate in the conversation
Mastodon 🐘

A general-purpose Mastodon server with a 1000 character limit.

Support us on Ko-Fi Support us on Patreon Support us via PayPal