In a universe model, the term 'where' in context of a singularity has no meaning. Our understanding of spacial geometry, which we use to estimate where we are, depends upon our positional relationship to our known universe. But if the universe is infinitessimally small, then there is no measurement of position, because everything is in the same place.
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In a multiverse model, in which there are several universes coexisting in adjacent parcels of space at the same time, then the term 'where' is definable, but not measurable. In this case, we could say that the singularity is so many billion/trillion/quadrillion light years from the next closest universe, but we have no means of measuring distances that large.
ANY object is surrounded by a gravitational field.
When excited molecules collide with other molecules before they can release a photon!
very very dense :)
Example sentence - The fog was dense this morning.
so the past tense is dense. its an adjective
Most scientists believe that an infinite dense singularity existed before the incident known as the Big Bang.
Otherwise known as a Black Hole
The singularity at the centre of a black hole.
A singularity, made of unimaginably dense material.
A singularity is a point in space-time in which matter and energy are infinitely dense, as at the center of a black hole or at the moment of the Big Bang.
In Physics, singularity is a point at which a function takes an infinite value, especially in space-time when matter is infinitely dense, as at the center of a black hole.
a singularity
A "Singularity" or a "black hole".
There is no "behind" a black hole. A black hole is not a circular disk. The event horizon is spherical, with a singularity at the center. That singularity is an infinitely dense point.
Good question - some would say that it was a singularity...
A true mathematical singularity is a point, with dimensions of zero.A singularity is a finite mass in zero volume. If it has any length, width, height,or radius, then it may be enormously dense, but it's not a singularity.You're right. I don't understand it either. But that's how it works.
The Big Bang theory postulates that the universe is expanding from an extremely hot and dense state. It does not necessarily say that this state was a singularity - but a singularity would have been consistent with Einstein's relativity theory. If it was indeed a singularity, then it would have been much smaller than a dot; much smaller even then a proton. In fact, it would have had no size at all.