Примери за използване на Cosmological constant на Английски и техните преводи на Български
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And I would link that to something called the cosmological constant.
The Cosmological Constant is the energy density of the vacuum.
Einstein later called the cosmological constant his"biggest blunder".
S he simply fudged his formula with what he called a cosmological constant.
With a positive cosmological constant, it could also occur in a closed universe.
We considered vacuum energy as the source of cosmological constant.
With a positive cosmological constant, the universe could be an eternal static sphere.
More evidence for dark energy being the cosmological constant.
Einstein then dropped the cosmological constant, calling it his"biggest blunder.".
For example, we will know if dark energy is a cosmological constant.
The cosmological constant makes the universe"older" for fixed values of the other parameters.
Possible candidates include a cosmological constant and quintessence.
The energy of the field in those regions would behave like a cosmological constant.
Possibilities include the cosmological constant, which is equivalent to the energy of empty space.
The study strengthens the evidence that dark energy is the cosmological constant.
If dark energy is a cosmological constant, this ratio should be constant in both cosmic time and location.
The energy density of empty space is called the cosmological constant.
In the twist of irony, physicists reintroduce the cosmological constant in Einstein's field equations to take into account dark energy.
It is the energy density of empty space,also known as the cosmological constant.
In a twist of irony, physicists once again reintroduced the cosmological constant into Einstein's field equations to account for dark energy.
The problem arises when physicists try to calculate his contribution to the cosmological constant.
Space with a cosmological constant is qualitatively different: instead of moving outward, the cosmological horizon stays put.
Perhaps the most startling instance of fine-tuning is the cosmological constant paradox.
A number called the cosmological constant transcends the microscopic world of quantum mechanics and the macroscopic world of Einstein's theory of general relativity.
The problem is that all our modern theories imply that the cosmological constant should not be small.
A single number, called the cosmological constant, bridges the microscopic world of quantum mechanics and the macroscopic world of Einstein's theory of general relativity.
What's the matter, Saul? You afraid someone's going to steal it?Like you stole Einstein's cosmological constant?
In general relativity this manifests itself as the Cosmological Constant in the Einstein Field Equations.
Friedmann's universe also expanded from a very dense clump of matter, butdid not involve the cosmological constant.
After his Mount Wilson visit with Hubble, Einstein formally discarded the cosmological constant, claiming it is"theoretically unsatisfactory anyway".