Does singularity have infinite gravity?
Nope. The singularity is a point where volume goes to zero, not where mass goes to infinity. It is a point with zero volume, but which still holds mass, due to the extreme stretching of space by gravity.
The infinite nature of singularities means that space and time as we know them cease to exist there. Scientists have long sought ways to avoid the complete breakdown of all the known laws of physics brought on by singularities.
A gravitational singularity, spacetime singularity or simply singularity is a condition in which gravity is so intense that spacetime itself breaks down catastrophically. As such, a singularity is by definition no longer part of the regular spacetime and cannot be determined by "where" or "when".
It is true that gravity is "unlimited" in the sense that it never turns off. Earth's gravity will never go away as long as it has mass. But since this is just a force and not an energy, the never-ending nature of gravity cannot be used to extract infinite energy, or any energy at all, for that matter.
In Brief. Einstein's general theory of relativity predicts that time ends at moments called singularities, such as when matter reaches the center of a black hole or the universe collapses in a “big crunch.” Yet the theory also predicts that singularities are physically impossible.
When you hit the singularity of a black hole, time stops for you simply because you're annihilated. This is similar to what happens at the big bang singularity: any observer would have been annihilated by the conditions of the early universe in which the temperature and density diverged to infinity.
Kurzweil believes that the singularity will occur by approximately 2045. His predictions differ from Vinge's in that he predicts a gradual ascent to the singularity, rather than Vinge's rapidly self-improving superhuman intelligence.
Traditional models of our Universe
Although there is no direct evidence for a singularity of infinite density, the cosmic microwave background is evidence that the universe expanded from a very hot, dense state.
The universal origin story known as the Big Bang postulates that, 13.7 billion years ago, our universe emerged from a singularity — a point of infinite density and gravity — and that before this event, space and time did not exist (which means the Big Bang took place at no place and no time).
Black holes collapse to the point of singularity. This is a geometric point in space where the compression of mass is infinite density and zero volume. Space-time curves infinitely, gravity is infinite, and the laws of physics cease to function. There is also what is known as naked singularity.
Is there infinite space in a black hole?
A black hole is an extremely massive concentration of matter, created when the largest stars collapse at the end of their lives. Astronomers theorize that a point with infinite density—called a singularity—lies at the center of black holes.
Allegedly a sentient quantum singularity, Singularity can teleport dozens of people vast distanes, fly, cross dimensional barriers, and use osmosis to absorb objects or people into her form, within which a pocket universe apparently exists.
When gravity disappears for 1 second the outwards force balanced by the gravity would be released causing a massive explosion.
If the earth were about 36,000 km in diameter with the same mass and length-of-day then the gravity at the equator would be zero. This is the altitude of geostationary orbits.
Spacetime goes toward infinite curvature and matter is crushed to infinite density under the pull of infinite gravity. At a singularity, space and time cease to exist as we know them and current laws of physics cannot be applied to this region.
The closer an observer moves toward a black hole, the more dilation of time they would experience. One hour for a black hole observer would equate to 100,000,000 years for a person on Earth. Therefore one minute in a black hole would be roughly 1,700,000 years.
Time slows down near a black hole due to the extremely strong gravitational field of the black hole. According to the theory of general relativity, this phenomenon is due to the gravity of the black hole curving spacetime in a way that affects all measurements of time and space near the black hole.
As black holes have the type of gravitational field that Engelhardt first describes – one that intensely pulls matter together, reaching a point of infinite density – they epitomize a past holographic screen. Therefore, inside the perpetually disappearing darkness of the black hole, time runs backwards.
That being the case, singularities never have zero volume, but reach the limiting scale for space-time at about 10^-33 centimeters.
In order for you to stop time, you would have to be traveling infinitely fast. Nothing can travel faster than light (let alone infinitely fast) without gaining infinite mass and energy, according to Einstein's theory of relativity.
Can space/time be destroyed?
That connection led to the creation of a model that proposes that spacetime can be created or destroyed by changing the amount of entanglement between different surface regions of an object.
So what's going to happen in 2045? It's pretty likely that robots and artificial technology will transform a bunch of industries, drone aircraft will continue their leap from the military to the civilian market, and self-driving cars will make your commute a lot more bearable.
The concept of the Singularity has been around since the late 1950s and exists in various versions, but its essence is that machines by 2045 will have capabilities way beyond humans and that humans by merging with machines will acquire superhuman capabilities, including immortality and hugely enhanced cognitive ...
Siri is not capable of understanding and truly interpreting needs, emotions, thought processes, and beliefs of humans. Siri lacks consciousness and self-awareness; the two characteristics that makes us humans and constitute what we call Strong AI, which we will discuss in the following section.
The answer is, of course, that a singularity can't exist. The fact that General Relativity predicts that singularities are inevitable under certain conditions is proof that GR is wrong. A singularity is an infinity and a place where the equations of GR literally break down and become meaningless.
The Big Bang theory says that the universe came into being from a single, unimaginably hot and dense point (aka, a singularity) more than 13 billion years ago. It didn't occur in an already existing space. Rather, it initiated the expansion—and cooling—of space itself.
In effect, the singularity divides the universe into two: a world where everything moves slower than the speed of light, and a world where everything moves faster. The laws of physics in these two realms could turn out to be quite different.
In the beginning, there was an infinitely dense, tiny ball of matter. Then, it all went bang, giving rise to the atoms, molecules, stars and galaxies we see today.
Eventually, the entire contents of the universe will be crushed together into an impossibly tiny space – a singularity, like a reverse Big Bang. Different scientists give different estimates of when this contraction phase might begin. It could be billions of years away yet.
The trite answer is that both space and time were created at the big bang about 14 billion years ago, so there is nothing beyond the universe. However, much of the universe exists beyond the observable universe, which is maybe about 90 billion light years across.
What would happen if you entered a singularity?
Nothing can escape from within, not even light. Current theories say there's a point of infinite density in the centre – the singularity. A jump into a black hole is a one-way trip. Black holes are regions of space where gravity is so strong that nothing can escape them, not even light.
The matter continues to collapse to a point that is known as a singularity. This point has infinite mass and density and is infinitely small.
Our Universe appears to be expanding and cooling, having originated some 13.8 billion years ago in a hot Big Bang. However, it's plausible that what we see from inside our Universe is simply the result of being inside a black hole that formed from some parent Universe.
What would a singularity look like in the quantum mechanical context? Most likely, it would appear as an extreme concentration of a huge mass (more than a few solar masses for astrophysical black holes) within a tiny volume.
Like anything in space, the compressed singularity hidden behind a black hole's event horizon — the point beyond which not even light can escape — spins freely with all the momentum it's picked up over the eons.
A singularity is defined as an infinitely dense, infinitely hot and infinitesimally small point. All our math breaks down as we approach the singularity, and so the answer is 'infinite temperature'.
One of the most common ones is "a singularity," which refers to an instant where all the matter and energy in the Universe was concentrated into a single point.
If the Earth stopped spinning, you wouldn't suddenly be launched off into space. Gravity would still keep you firmly on the ground. There would be lots of changes, though. If Earth were to stop spinning but continue to orbit the sun, a "day" would last half a year, and so would the night.
Finding the gravitational limit of the human body is something that's better done before we land on a massive new planet. Now, in a paper published on the pre-print server arXiv, three physicists, claim that the maximum gravitational field humans could survive long-term is four-and-a-half times the gravity on Earth.
It is the pull of the Moon's gravity on the Earth that holds our planet in place. Without the Moon stabilising our tilt, it is possible that the Earth's tilt could vary wildly. It would move from no tilt (which means no seasons) to a large tilt (which means extreme weather and even ice ages).
Will Earth ever lose gravity?
Alternatively, Earth's gravity could dwindle to zero in a possible future event known as the big rip, when the universe has expanded to the point where everything, even subatomic particles, are trillions of kilometres apart.
Scientists have recently observed for the first time that, on an epigenetic level, astronauts age more slowly during long-term simulated space travel than they would have if their feet had been planted on Planet Earth.
There is no such thing as zero gravity in space. Gravity is everywhere in the universe and manifests itself in black holes, celestial orbits, ocean tides, and even our own weight.
A Curvature Singularity is best exemplified by a black hole. At the center of a black hole, space-time becomes a one-dimensional point which contains a huge mass. As a result, gravity become infinite and space-time curves infinitely, and the laws of physics as we know them cease to function.
Beyond Singularity is a science fiction anthology edited by American writers Jack Dann and Gardner Dozois. It was published in 2005, and includes stories on the theme of "beyond singularity" that were originally published from 1960 to 2004, though mostly from the last few years of that range.
At the center of a black hole the gravity is so strong that, according to general relativity, space-time becomes so extremely curved that ultimately the curvature becomes infinite. This results in space-time having a jagged edge, beyond which physics no longer exists -- the singularity.
A singularity is a point in space where there is a mass with infinite density. This would lead to a spacetime with an infinite curvature. Singularities are predicted to exist in black holes by Einstein's theory of general relativity, which is a theory that has done remarkably well at matching experimental results.
The density at the center of a black hole is infinite (it's a famous "singularity", which leads to difficulties in modern cosmology).
Originally Answered: how can a singularity have infinite density? A singularity is not a place or time in the spacetime, it is actually the absence of it. This means that a singularity can not have a density associated with it.
Well, even though black holes are extreme in many ways, they don't have infinite mass—and it's mass that determines the force of their gravity. Some black holes—known as stellar black holes. —have about the amount of mass that very massive stars do.
Can a singularity have mass?
The matter continues to collapse to a point that is known as a singularity. This point has infinite mass and density and is infinitely small.
Hence Singularity would be a very compact solid, since whenever a solid is compressed beyond a point of no return singularity is formed.
The Big Bang theory says that the universe came into being from a single, unimaginably hot and dense point (aka, a singularity) more than 13 billion years ago. It didn't occur in an already existing space. Rather, it initiated the expansion—and cooling—of space itself.
Answer and Explanation: No, a singularity is not smaller than the Planck length. The Planck length is the smallest possible measurement that can be used to measure length. A singularity is also not part of space time, so it can't be described in terms of length.
Black holes are singularities: points of infinitely small volume with infinite density. Such incredibly compact objects cause infinite curvature in the fabric of spacetime.
The black hole itself would not be exploding, but it might contain an event similar (but not identical) to an explosion, that would function locally as a big bang.