Sentences with phrase «not even light»
And inside that faux black marble mausoleum shower — not even a light.
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But at 630 gram it's not even light.
It's not even light, with a weight of 372 gram.
What do I do if my kindle fire is overheated and will not turn on not even the light on the power button I Tried holding it for ten sec..
A black hole is an infinitely dense object whose gravity is so strong that nothing — not even light — can escape its immediate proximity.
Standing outside one of these massive objects in the universe, for instance, there's only darkness — the black hole's gravity is so strong that not even light escapes.
Black holes, by definition, exert a gravitational pull so great that not even light can escape them.
Once inside, nothing can escape a black hole's gravity — not even light.
Black holes — regions of space - time that are so dense that not even light can escape their gravitational pull — are formed when massive stars (those with over five times the mass of the sun) collapse under their own weight.
Although the analogy is scientifically incorrect and flawed, it is easy to imagine why it originated and continues to persist — these mysterious bodies, formed as a result of a massive star collapsing in on itself, are so dense, that nothing, not even light can escape their gravitational pull.
Black holes, which are regions of space - time that are so dense that not even light can escape their gravitational pull, are formed when a massive star collapses under its own weight.
But to photograph Sagittarius A *'s event horizon — the region surrounding a black hole where not even light can escape a black hole's gravity — we need a technique that combines the power of many different telescopes.
This object may be a neutron star that contains approximately the mass of two Suns condensed into a sphere only about 20 km (12 mi) across, or alternatively an even more compact black hole, a collapsed star whose gravity is so strong that not even light can escape from it.
Called the event horizon, this is the boundary beyond which nothing, not even light, can escape the object's gargantuan grasp.
Black hole, cosmic body of extremely intense gravity from which nothing, not even light, can escape.
A black hole's gravitational influence is so strong that nothing, not even light, can escape its grasp.
For an object of 2.5 million solar masses, its Schwarzschild radius — or outer edge of the «gravity well» from which not even light itself can escape from the black hole's pull — would be only about 7.5 million kilometers.
A black hole refers to the region in space around the singularity in which the gravitational force is so strong that not even light can escape its pull.
A black hole is a celestial body that is so massive and dense that nothing can escape its gravitational pull (its attractive force), not even light.
«Black holes are objects that possess such a strong gravitational force that nothing — not even light — can escape,» said Professor Meg Urry of Yale University, co-author of the study.»
In both types of black holes, mass is so concentrated that nothing within a specific distance of a black hole, called the event horizon, can escape its gravity — not even light.
Within a certain distance of that point — beyond the event horizon — gravity grows so strong that nothing can escape, not even light.
A black hole is a region in space containing a mass so dense that not even light can escape its gravity.
As matter is sent whirling into a black hole, tugged ever harder by the hole's irresistible gravity, the material heats up, and along its wild ride it radiates that heat away as light, until it disappears past the black hole's «event horizon» — the border beyond which nothing, not even light, can escape the hole's violent gravitational pull.
Black holes form when matter becomes so dense that not even light can escape its gravitational pull.
Nothing escapes from it, not even light.
Although not even light can escape their gravity, Hawking calculated that black holes should nonetheless emit a faint glow, now called Hawking radiation.
Black holes — massive objects in space with gravitational forces so strong that not even light can escape them — come in a variety of sizes.
The exact process remains unknown, however, and astrophysicists had thought that only the event horizon surrounding a black hole — the rotating circular zone beyond which nothing can escape, not even light — could produce jets of x-rays on such a scale.
This year, astronomers proved Rush right by establishing that Cygnus X-1 does indeed harbor a black hole, a dead star whose great gravity lets nothing, not even light, escape.
So dense that it devours any surrounding matter that gets too close, pulling it into a riptide of gravity that nothing, not even light, can escape.
The darkened corpse of a former sun from which not even light can escape, a black hole forms when a massive, dying star crumples under its own gravity.
Black holes contain an event horizon, beyond which not even light can escape.
So although not even light can escape their gravity, black holes should emit a faint glow.
Rather than letting nothing, not even light, escape their grasp, Hawking says that this «point of no return» is a fallacy, and black holes will sometimes let trapped light back out.
escapes, not even light; it is perfectly black, like the mouth of along tunnel.
Black holes earn their name because their gravity is so strong not even light can escape from them.
Gebhardt says the black hole's event horizon — the edge from within nothing can escape, not even light — is four times as large as the orbit of Neptune, the outermost planet in our solar system.
Once known as a frozen star, a black hole is formed when a massive star burns out and collapses upon itself, ultimately producing gravitational energy so powerful that not even light can escape from it.
Black holes, tortured regions of space where the pull of gravity is so intense that not even light can escape, did not always have such a high profile.
Once trapped inside, nothing — not even light — can escape.
Black holes were once regarded as one - way paths to oblivion because of their tremendous gravitational fields that, the theory went, allowed nothing — not even light — to escape.
They're so massive that nothing, not even light, can escape a black hole once it gets close enough.
It may have been created by an imploding star [where the gravity becomes so concentrated that nothing, not even light, can escape].
Soon after Einstein published his theory describing gravity as warps in space - time, the German astronomer Karl Schwarzschild used the theory to show that if a large star were squeezed into a small enough point, it would create such a strong gravitational field that nothing, not even light, could...
There's a chance the supernova would collapse into an even more enigmatic state — a black hole, which has a gravitational field so strong that not even light can escape.
The colorful bands represent propagating gravitational fields, while the gray spheres indicate the black holes» event horizons, the boundary from within which not even light can escape.
From this hole nothing escapes, not even light.
Within a certain distance from the point — at the black hole's event horizon — gravity grows so strong that not even light can escape.
The concept of an object so massive that not even light can escape the pull of its gravity was first mooted way back in 1783.