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  • Black holes are very heavy astronomical objects (which gives them all sorts of cool behaviors

  • and properties), but to make a black hole it takes more than just a lot of mass.

  • It takes a lot of density, that is, a lot of mass crammed into a sufficiently small

  • space.

  • Precisely how much mass, or how small it needs to be crammed, will vary.

  • Black hole formation is complicated, but there are essentially two possible paths: start

  • with a fixed amount of matter and compress it smaller and smaller until it reaches the

  • tipping point where it’s dense enough to become a black hole (this is how supernovas

  • turn the core of supergiant stars into black holes), or keep adding matter to an existing

  • object until it reaches the tipping point where it’s so big it becomes a black hole

  • (for example, if two neutron stars merge they can form a black hole).

  • You can do a very rough calculation of these tipping points yourself knowing just two things:

  • the equation for what’s called the Schwarzschild radius of a black hole, and the equation for

  • the mass of a spherical object.

  • The Schwarzschild radius is the distance from the center of a black hole below which nothing,

  • not even light, can escape ; you may have heard it called theevent horizonand

  • how big it is depends only on the black hole’s mass; The G and c squared here are constants

  • that help convert from kilograms to meters, so the equation can also be written in SI

  • units as 1.49*10^-27 times mass, but the important thing is that the heavier the black hole,

  • the bigger the Schwarzschild radius.

  • Schwarzschild, by the way, meansblack shieldin German, which is bizarrely appropriate

  • for the physicist after whom black hole event horizons are named!

  • Now let’s blindly use this equation to start calculating Schwarzschild radii for other

  • objects: the Schwarzschild radius of the sun is about , the Schwarzschild radius of the

  • Earth is about 1 cm , and the Schwarzschild radius of a cat is about 0.01 yoctometers.

  • What do these mean?

  • Well, nothing, since the sun, the earth, and the cat aren’t black holes.

  • Yet.

  • In principle, any object that gets squeezed down to around the size of its Schwarzschild

  • radius will become a black hole.

  • It’s hard to imagine squeezing the whole earth until it literally becomes this big;

  • but when supergiant stars die, their supernovae explosions are so powerful they can compress

  • the star’s already-dense cores past their Schwarzschild tipping points to become black

  • holes.

  • But suppose you don’t have access to supernova-strength compression; you can instead make a black

  • hole by adding more mass to your object.

  • The equation you want is here: it describes how the mass of a spherical object is equal

  • to the density of the material in question times the volume it takes up.

  • Or, rearranged a little bit, it says that the radius of that sphere is proportional

  • to the cube root of its mass.

  • Now, the Schwarzschild radius of an object is proportional to its mass directly, no cube

  • roots involved, so as an object’s mass increases, its Schwarzschild radius will increase much

  • faster than its actual radius.

  • Double the mass, double the Schwarzschild radius, but only 1.26 times the actual radius.

  • Now, remember, the Schwarzschild radius starts off really really small and doesn’t really

  • mean anything until the entire object can fit inside the Schwarzschild radius; but it’s

  • mathematically guaranteed that straight lines eventually catch up to cube roots, so we just

  • need to keep adding matter to the eartheventually it will fit inside its own Schwarzschild radius

  • and collapse into a black hole!

  • For the Earth, which has the density of rock , this tipping point occurs at a size of around

  • 140 million kilometersbasically the distance to the sun.

  • Though to be honest rock definitely isn’t strong enough to sustain the pressure necessary

  • and we’d probably collapse into a neutron star long before getting that big.

  • As for neutron stars themselves, the tipping point numbers tell us that they will become

  • black holes if they get bigger than about 6 times the mass of the sun, and about 20km

  • in size ! This is a simplified result from a simplified equation –I mean, neutron stars

  • aren't constant density, for one–, but it's pretty darn close to both astronomical observations,

  • and much more sophisticated theoretical predictions for the maximum possible mass (and size) of

  • neutron stars.

  • Only off by a factor of two or three.

  • So to recap: if you want to turn your cat into a black hole, you have two options: either

  • compress it down to a trillionth the size of an atomic nucleus, or cover it in a pile

  • of other cats that reaches beyond the sun.

  • You may have noticed I just saidbeyond the sun”, notalmost to the sunas

  • was the case with the earth.

  • That’s because cats aren’t as dense as rock, so theyll have a different black

  • hole tipping point – I challenge you to figure it out using the Schwarzschild radius

  • and mass of a sphere equations and leave the answer in the comments.

  • And after that, you could head over to this video’s sponsor, Brilliant.org, for more

  • interactive quizzes and mini courses on physics and math.

  • In fact, they even have an introductory quiz specifically on black holes and gravity which

  • guides you through deriving the Schwarzschild radius formula and other cool stuff like that,

  • with just the right balance between hand-holding and creative problem-solving - I’ll link

  • to it in the video description . And the first 314 people to go to either that link or Brilliant.org/minutephysics

  • will get 20% off a premium subscription to Brilliant.

  • Again, that’s Brilliant.org/minutephysics which lets Brilliant know you came from here.

  • Good luck problem solving!

Black holes are very heavy astronomical objects (which gives them all sorts of cool behaviors

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ブラックホールのティッピングポイント (The Black Hole Tipping Point)

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    林宜悉 に公開 2021 年 01 月 14 日
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