A layman here. Wouldn't a Black Hole with a mass equal to Earth's be significantly smaller than Earth? Won't the Gravitational range (Schwarzschild radius?) be significantly less than Earth's?
Yes, a black hole with the mass of the Earth would be much smaller. There's an actual size illustration of one in the article.
The gravitational attraction from a given distance from the center would be the same as for Earth. For example, if you're 4,000 miles from the center, you'll experience a 1-g acceleration. The difference is that, because of the black hole's smaller size, you can get a lot closer to it.
No at a distance it would be exactly the same. You would only start to notice the difference gravitationally once you get to be around 1 earth radius away.
The entire mass of Earth, compressed down to the size of a bullet. That's actually a very vivid illustration, unlike most of the other large numbers that get thrown around in astronomy.
For all intents and purposes of astronomic calculations, you can pretend it's 9mm in size, because A) the difference between a 9mm sized object that behaves like a black hole and a singularity with a 9mm event horizon is minimal and B) it's a 9mm black hole going 50km/s+, most math will result in the extinction of human kind anyway.
To be fair, we don't know what is behind those 9mm. Einstein's equations predict a singularity but afaik there is consensus that those don't hold there.
Would it? If it were one earth radius away from the surface it would exert as much pull on someone on the surface as the earth would, right? Things couldn't start becoming spaghetti before that point, and that's pretty close to earth; surely it'd reach the earth's center very shortly after that.
Not my area of expertise, but at the distances we're talking, can we just treat them as point masses? Somewhat different accelerations of earths colliding won't matter much until the density is comedically low.
The gravitational attraction from a given distance from the center would be the same as for Earth. For example, if you're 4,000 miles from the center, you'll experience a 1-g acceleration. The difference is that, because of the black hole's smaller size, you can get a lot closer to it.