Mixed

What has stronger gravity than a black hole?

What has stronger gravity than a black hole?

Now if you fix the distance (say 150 million km), then the gravitational pull depends only on the mass of the object. A neutron star can be at most about three times the mass of the sun, black holes are nearly all larger than that, so the gravitational pull of the black-hole is greater.

How much stronger is the gravity of a black hole than Earth?

This black hole is 6.6 times more massive than our Sun. (That means it has a lot of mass, which means it has a really strong gravitational pull – much stronger than even our Sun’s gravitational pull.) If Earth gets within about 800,000 kilometres (3.7 light seconds) of this black hole it will get pulled apart.

What has the strongest gravity in the universe?

Jupiter
Jupiter is the largest in our Solar System, meaning it also has the highest gravity. You would weigh two and a half times on Jupiter than what you would on Earth. Gravity is a fundamental force of physics, which keeps everything attracted to the earth’s surface. It is equivalent to 9.80665 m/s (or 32.174 ft/s).

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How do galaxies vary?

Galaxies vary in many ways. They come in different shapes: spiral, elliptical, and irregular. Spiral galaxies look like flying saucers; elliptical galaxies are circular; irregular galaxies do not have a defined shape. Spiral galaxies are constantly making new stars, whereas elliptical galaxies do not make new stars.

Will Earth be pulled into a black hole?

Will Earth be swallowed by a black hole? Absolutely not. While a black hole does have an immense gravitational field, they are only “dangerous” if you get very close to them. It would get very dark of course and very cold, but the black hole’s gravity at our distance from it would not be a concern.

What is gravity of black hole?

A black hole is a region of spacetime where gravity is so strong that nothing — no particles or even electromagnetic radiation such as light — can escape from it. The theory of general relativity predicts that a sufficiently compact mass can deform spacetime to form a black hole.