TechnologyWhat is a black hole?

12:55  07 december  2018
12:55  07 december  2018 Source:   nbcnews.com

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A black hole is a place in space where gravity pulls so much that even light cannot get out.

A black hole is a region of spacetime exhibiting such strong gravitational effects that nothing—not even particles and electromagnetic radiation such as light—can escape from inside it.

What is a black hole?© ESO Screenshot of ESOcast 173:First Successful Test of Einstein’s General Relativity Near Supermassive Black Hole. Black holes are the dark remnants of collapsed stars, regions of space cut off from the rest of the universe. If something falls into a black hole, it can never come back out. Not even light can escape, meaning black holes are invisible even with powerful telescopes. Yet physicists know black holes exist because they're consistent with time-tested theories, and because astronomers have observed how matter behaves just outside a black hole.

Naturally, science fiction loves such an enigmatic entity. Black holes have played starring roles in popular books, movies and television shows, from "Star Trek" and "Doctor Who" to the 2014 blockbuster "Interstellar."

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At the center of our galaxy, a supermassive black hole churns. Learn about the types of black holes , how they form, and how scientists discovered these invisible, yet extraordinary objects in our universe.

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But black holes aren't quite as menacing as they are commonly portrayed. "They definitely do not suck," says Daryl Haggard, an astrophysicist at McGill University in Montreal. "A black hole just sits there, passively. Things can fall onto it, just as meteors can fall to Earth, but it doesn't pull stuff in."

How do black holes form?

The force of gravity governs the motion of planets, stars and galaxies, and it's responsible for creating black holes, too.

Stars shine because of the nuclear fusion reactions taking place in their cores. The reactions create an outward pressure that counters the inward pull of gravity. As a result, the star neither expands nor contracts. But when a star's fuel supply is exhausted and the outward pressure stops, gravity causes the star to shrink.

Most images of black holes are illustrations. Here’s what our telescopes actually capture.

Most images of black holes are illustrations. Here’s what our telescopes actually capture. Soon, we may get to see one up close for the first time. Impossibly dense, deep, and powerful, black holes reveal the limits of physics. Nothing can escape one, not even light. Even though black holes excite the imagination like few other concepts in science, the truth is that no astronomer has actually seen one. We’ve “heard” them, so to speak, as scientists have recorded the gravitational waves (literal ripples in spacetime) emanating from black holes that collided with one another billions of years ago. But any photo you’ve seen of a dark mass warping spacetime … well, that’s just an illustration.

What is a black hole ? When do black holes form? A black hole is formed when a star of sufficient mass undergoes gravitational collapse, with most or all of its mass compressed into a sufficiently small area of space, causing infinite spacetime curvature at that point (a "singularity").

Black Holes are weird and unusual objects in space. What are they like? How are they made? Are they even real? Join us to find out! You can jump to chapters

What happens next depends on the size of the star. If it's about the mass of our sun or a bit bigger, it will collapse until it's a roughly Earth-size body known as a white dwarf. Stars that are significantly larger will collapse into an ultra-dense object known as a neutron star. If it's really big, the collapse cannot be stopped — and you get a black hole.

Why can't anything escape from a black hole? The key is something called escape velocity: the speed needed to overcome the gravitational tug of a particular star or planet and move out into space.

Earth's escape velocity is about seven miles per second, or about 25,000 miles an hour. Throw a baseball into the air and it falls back down because its speed is lower than Earth's escape velocity; if your fastball exceeded 25,000 miles an hour, it would never come down.

Escape velocity is highest for objects that are massive but small in size. In the case of a black hole, the escape velocity is greater than the speed of light. Since nothing can travel faster than light (something Einstein showed with his theory of relativity), the star disappears. With light unable to escape, it appears black.

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Simply stated, a black hole is a place where the pull of gravity is so immense that not even light can escape. This includes all types of particles and even all forms of electromagnetic radiation. In Einstein’s general theory of relativity, he states that black holes compresses all types of mass into a tiny space.

A black hole is an astronomical concept that describes an area of space with an intense gravitational pull that basically “sucks” in its surroundings, and nothing — not even light — can escape. Scientists debate whether they exist at all. Some claim that they’re just an invented explanation for a

What is a black hole?© ESO A black hole is bounded by its event horizon, the imaginary sphere that represents the region where the escape velocity is exactly equal to the speed of light.

Black holes vary in size, with masses ranging from a handful of suns (and a diameter of a few miles) up to millions of solar masses (and a diameter of several million miles). The largest of these so-called supermassive black holes are believed to lie at the center of most galaxies, including our own Milky Way.

Astronomers are still debating how these colossal black holes form. One possibility is that they're the result of mergers between star-size black holes.

What's inside a black hole?

No one knows exactly what lies within a black hole's event horizon. Some physicists hypothesize that matter inside is so compressed that it forms a point of infinite density known as a singularity. In this view, a black hole can be thought of as empty space, with its mass concentrated at an infinitesimal point in the center.

Anyone unlucky enough to fall into a black hole would be torn apart by the intense gravity — stretched like spaghetti, as Stephen Hawking famously put it — with his or her mass added to the black hole's.

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A black hole is an area of such immense gravity that nothing—not even light—can escape from it. As our spacecraft approaches it, the gravity will be so much stronger on the side closer to the black hole than at the other side that it will get completely stretched out like a piece of spaghetti.

What is a black hole ? When do black holes form? A black hole is formed when a star of sufficient mass undergoes gravitational collapse, with most or all of its mass compressed into a sufficiently small area of space, causing infinite spacetime curvature at that point (a “singularity”).

Other physicists question this view of the interior of a black hole, arguing that a more comprehensive physical theory — one that combines Einstein's theory of gravity with quantum theory — might do away with singularities.

Black holes may be dark, but that doesn't mean we can't study them

Astronomers have learned a great deal about black holes by watching what happens to gas and dust that fall into them. Such material can reach very high temperatures, causing it to emit light at various wavelengths.

The Event Horizon Telescope, a globe-spanning array of radio telescopes, is giving astronomers their closest look yet at the region immediately outside a black hole. Astronomers have also used the Very Large Telescope in Chile to study the motion of stars near the Milky Way's supermassive black hole, known as Sagittarius A* (pronounced "Sagittarius A-star"). From these motions it's possible to infer some of the properties of the black hole.

The 2015 discovery of gravitational waves means that scientists can use these waves to study collisions between black holes in deep space.



Ancient black hole collision is the most massive researchers have ever observed.
Researchers just announced the discovery of the most massive, distant black hole collision ever observed. Excitingly, the huge cosmic crash wasn’t alone. The discovery of three other black hole collisions were announced at the same time, bringing the total number of observed mergers of these incredibly dense regions of space to 10. The discoveries were announced over the weekend at a scientific meeting in Maryland, where researchers gathered to talk about the latest research into gravitational waves. Gravitational waves are ripples in space-time that are usually caused by two objects rotating around each other.

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